Reformatting changes with an update to the MSVC project files
diff --git a/silk/A2NLSF.c b/silk/A2NLSF.c
index 2881e8d..a739ef3 100644
--- a/silk/A2NLSF.c
+++ b/silk/A2NLSF.c
@@ -43,14 +43,11 @@
#define QPoly 16
#define MAX_ITERATIONS_A2NLSF_FIX 30
-/* Flag for using 2x as many cosine sampling points, reduces the risk of missing a root */
-#define OVERSAMPLE_COSINE_TABLE 0
-
/* Helper function for A2NLSF(..) */
/* Transforms polynomials from cos(n*f) to cos(f)^n */
static inline void silk_A2NLSF_trans_poly(
- opus_int32 *p, /* I/O Polynomial */
- const opus_int dd /* I Polynomial order (= filter order / 2 ) */
+ opus_int32 *p, /* I/O Polynomial */
+ const opus_int dd /* I Polynomial order (= filter order / 2 ) */
)
{
opus_int k, n;
@@ -62,21 +59,21 @@
p[ k - 2 ] -= silk_LSHIFT( p[ k ], 1 );
}
}
-/* Helper function for A2NLSF(..) */
-/* Polynomial evaluation */
-static inline opus_int32 silk_A2NLSF_eval_poly( /* return the polynomial evaluation, in QPoly */
- opus_int32 *p, /* I Polynomial, QPoly */
- const opus_int32 x, /* I Evaluation point, Q12 */
- const opus_int dd /* I Order */
+/* Helper function for A2NLSF(..) */
+/* Polynomial evaluation */
+static inline opus_int32 silk_A2NLSF_eval_poly( /* return the polynomial evaluation, in QPoly */
+ opus_int32 *p, /* I Polynomial, QPoly */
+ const opus_int32 x, /* I Evaluation point, Q12 */
+ const opus_int dd /* I Order */
)
{
opus_int n;
opus_int32 x_Q16, y32;
- y32 = p[ dd ]; /* QPoly */
+ y32 = p[ dd ]; /* QPoly */
x_Q16 = silk_LSHIFT( x, 4 );
for( n = dd - 1; n >= 0; n-- ) {
- y32 = silk_SMLAWW( p[ n ], y32, x_Q16 ); /* QPoly */
+ y32 = silk_SMLAWW( p[ n ], y32, x_Q16 ); /* QPoly */
}
return y32;
}
@@ -119,12 +116,12 @@
silk_A2NLSF_trans_poly( Q, dd );
}
-/* Compute Normalized Line Spectral Frequencies (NLSFs) from whitening filter coefficients */
-/* If not all roots are found, the a_Q16 coefficients are bandwidth expanded until convergence. */
+/* Compute Normalized Line Spectral Frequencies (NLSFs) from whitening filter coefficients */
+/* If not all roots are found, the a_Q16 coefficients are bandwidth expanded until convergence. */
void silk_A2NLSF(
- opus_int16 *NLSF, /* O Normalized Line Spectral Frequencies, Q15 (0 - (2^15-1)), [d] */
- opus_int32 *a_Q16, /* I/O Monic whitening filter coefficients in Q16 [d] */
- const opus_int d /* I Filter order (must be even) */
+ opus_int16 *NLSF, /* O Normalized Line Spectral Frequencies in Q15 (0..2^15-1) [d] */
+ opus_int32 *a_Q16, /* I/O Monic whitening filter coefficients in Q16 [d] */
+ const opus_int d /* I Filter order (must be even) */
)
{
opus_int i, k, m, dd, root_ix, ffrac;
@@ -145,7 +142,7 @@
silk_A2NLSF_init( a_Q16, P, Q, dd );
/* Find roots, alternating between P and Q */
- p = P; /* Pointer to polynomial */
+ p = P; /* Pointer to polynomial */
xlo = silk_LSFCosTab_FIX_Q12[ 0 ]; /* Q12*/
ylo = silk_A2NLSF_eval_poly( p, xlo, dd );
@@ -164,13 +161,7 @@
thr = 0;
while( 1 ) {
/* Evaluate polynomial */
-#if OVERSAMPLE_COSINE_TABLE
- xhi = silk_LSFCosTab_FIX_Q12[ k >> 1 ] +
- ( ( silk_LSFCosTab_FIX_Q12[ ( k + 1 ) >> 1 ] -
- silk_LSFCosTab_FIX_Q12[ k >> 1 ] ) >> 1 ); /* Q12 */
-#else
xhi = silk_LSFCosTab_FIX_Q12[ k ]; /* Q12 */
-#endif
yhi = silk_A2NLSF_eval_poly( p, xhi, dd );
/* Detect zero crossing */
@@ -183,11 +174,7 @@
thr = 0;
}
/* Binary division */
-#if OVERSAMPLE_COSINE_TABLE
- ffrac = -128;
-#else
ffrac = -256;
-#endif
for( m = 0; m < BIN_DIV_STEPS_A2NLSF_FIX; m++ ) {
/* Evaluate polynomial */
xmid = silk_RSHIFT_ROUND( xlo + xhi, 1 );
@@ -202,11 +189,7 @@
/* Increase frequency */
xlo = xmid;
ylo = ymid;
-#if OVERSAMPLE_COSINE_TABLE
- ffrac = silk_ADD_RSHIFT( ffrac, 64, m );
-#else
ffrac = silk_ADD_RSHIFT( ffrac, 128, m );
-#endif
}
}
@@ -222,11 +205,7 @@
/* No risk of dividing by zero because abs(ylo - yhi) >= abs(ylo) >= 65536 */
ffrac += silk_DIV32( ylo, silk_RSHIFT( ylo - yhi, 8 - BIN_DIV_STEPS_A2NLSF_FIX ) );
}
-#if OVERSAMPLE_COSINE_TABLE
- NLSF[ root_ix ] = (opus_int16)silk_min_32( silk_LSHIFT( (opus_int32)k, 7 ) + ffrac, silk_int16_MAX );
-#else
NLSF[ root_ix ] = (opus_int16)silk_min_32( silk_LSHIFT( (opus_int32)k, 8 ) + ffrac, silk_int16_MAX );
-#endif
silk_assert( NLSF[ root_ix ] >= 0 );
@@ -239,13 +218,7 @@
p = PQ[ root_ix & 1 ];
/* Evaluate polynomial */
-#if OVERSAMPLE_COSINE_TABLE
- xlo = silk_LSFCosTab_FIX_Q12[ ( k - 1 ) >> 1 ] +
- ( ( silk_LSFCosTab_FIX_Q12[ k >> 1 ] -
- silk_LSFCosTab_FIX_Q12[ ( k - 1 ) >> 1 ] ) >> 1 ); /* Q12*/
-#else
xlo = silk_LSFCosTab_FIX_Q12[ k - 1 ]; /* Q12*/
-#endif
ylo = silk_LSHIFT( 1 - ( root_ix & 2 ), 12 );
} else {
/* Increment loop counter */
@@ -254,11 +227,7 @@
ylo = yhi;
thr = 0;
-#if OVERSAMPLE_COSINE_TABLE
- if( k > 2 * LSF_COS_TAB_SZ_FIX ) {
-#else
if( k > LSF_COS_TAB_SZ_FIX ) {
-#endif
i++;
if( i > MAX_ITERATIONS_A2NLSF_FIX ) {
/* Set NLSFs to white spectrum and exit */
diff --git a/silk/API.h b/silk/API.h
index a96bd54..1bb39ad 100644
--- a/silk/API.h
+++ b/silk/API.h
@@ -43,9 +43,9 @@
/* Struct for TOC (Table of Contents) */
typedef struct {
- opus_int VADFlag; /* Voice activity for packet */
- opus_int VADFlags[ SILK_MAX_FRAMES_PER_PACKET ]; /* Voice activity for each frame in packet */
- opus_int inbandFECFlag; /* Flag indicating if packet contains in-band FEC */
+ opus_int VADFlag; /* Voice activity for packet */
+ opus_int VADFlags[ SILK_MAX_FRAMES_PER_PACKET ]; /* Voice activity for each frame in packet */
+ opus_int inbandFECFlag; /* Flag indicating if packet contains in-band FEC */
} silk_TOC_struct;
/****************************************/
@@ -55,24 +55,24 @@
/***********************************************/
/* Get size in bytes of the Silk encoder state */
/***********************************************/
-opus_int silk_Get_Encoder_Size( /* O: Returns error code */
- opus_int *encSizeBytes /* O: Number of bytes in SILK encoder state */
+opus_int silk_Get_Encoder_Size( /* O Returns error code */
+ opus_int *encSizeBytes /* O Number of bytes in SILK encoder state */
);
/*************************/
/* Init or reset encoder */
/*************************/
-opus_int silk_InitEncoder( /* O: Returns error code */
- void *encState, /* I/O: State */
- silk_EncControlStruct *encStatus /* O: Encoder Status */
+opus_int silk_InitEncoder( /* O Returns error code */
+ void *encState, /* I/O State */
+ silk_EncControlStruct *encStatus /* O Encoder Status */
);
/***************************************/
/* Read control structure from encoder */
/***************************************/
-opus_int silk_QueryEncoder( /* O: Returns error code */
- const void *encState, /* I: State */
- silk_EncControlStruct *encStatus /* O: Encoder Status */
+opus_int silk_QueryEncoder( /* O Returns error code */
+ const void *encState, /* I State */
+ silk_EncControlStruct *encStatus /* O Encoder Status */
);
/**************************/
@@ -80,14 +80,14 @@
/**************************/
/* Note: if prefillFlag is set, the input must contain 10 ms of audio, irrespective of what */
/* encControl->payloadSize_ms is set to */
-opus_int silk_Encode( /* O: Returns error code */
- void *encState, /* I/O: State */
- silk_EncControlStruct *encControl, /* I: Control status */
- const opus_int16 *samplesIn, /* I: Speech sample input vector */
- opus_int nSamplesIn, /* I: Number of samples in input vector */
- ec_enc *psRangeEnc, /* I/O Compressor data structure */
- opus_int *nBytesOut, /* I/O: Number of bytes in payload (input: Max bytes) */
- const opus_int prefillFlag /* I: Flag to indicate prefilling buffers no coding */
+opus_int silk_Encode( /* O Returns error code */
+ void *encState, /* I/O State */
+ silk_EncControlStruct *encControl, /* I Control status */
+ const opus_int16 *samplesIn, /* I Speech sample input vector */
+ opus_int nSamplesIn, /* I Number of samples in input vector */
+ ec_enc *psRangeEnc, /* I/O Compressor data structure */
+ opus_int *nBytesOut, /* I/O Number of bytes in payload (input: Max bytes) */
+ const opus_int prefillFlag /* I Flag to indicate prefilling buffers no coding */
);
/****************************************/
@@ -97,38 +97,38 @@
/***********************************************/
/* Get size in bytes of the Silk decoder state */
/***********************************************/
-opus_int silk_Get_Decoder_Size( /* O: Returns error code */
- opus_int *decSizeBytes /* O: Number of bytes in SILK decoder state */
+opus_int silk_Get_Decoder_Size( /* O Returns error code */
+ opus_int *decSizeBytes /* O Number of bytes in SILK decoder state */
);
/*************************/
/* Init or Reset decoder */
/*************************/
-opus_int silk_InitDecoder( /* O: Returns error code */
- void *decState /* I/O: State */
+opus_int silk_InitDecoder( /* O Returns error code */
+ void *decState /* I/O State */
);
/******************/
/* Decode a frame */
/******************/
-opus_int silk_Decode( /* O: Returns error code */
- void* decState, /* I/O: State */
- silk_DecControlStruct* decControl, /* I/O: Control Structure */
- opus_int lostFlag, /* I: 0: no loss, 1 loss, 2 decode fec */
- opus_int newPacketFlag, /* I: Indicates first decoder call for this packet */
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int16 *samplesOut, /* O: Decoded output speech vector */
- opus_int32 *nSamplesOut /* O: Number of samples decoded */
+opus_int silk_Decode( /* O Returns error code */
+ void* decState, /* I/O State */
+ silk_DecControlStruct* decControl, /* I/O Control Structure */
+ opus_int lostFlag, /* I 0: no loss, 1 loss, 2 decode fec */
+ opus_int newPacketFlag, /* I Indicates first decoder call for this packet */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int16 *samplesOut, /* O Decoded output speech vector */
+ opus_int32 *nSamplesOut /* O Number of samples decoded */
);
/**************************************/
/* Get table of contents for a packet */
/**************************************/
opus_int silk_get_TOC(
- const opus_uint8 *payload, /* I Payload data */
- const opus_int nBytesIn, /* I: Number of input bytes */
- const opus_int nFramesPerPayload, /* I: Number of SILK frames per payload */
- silk_TOC_struct *Silk_TOC /* O: Type of content */
+ const opus_uint8 *payload, /* I Payload data */
+ const opus_int nBytesIn, /* I Number of input bytes */
+ const opus_int nFramesPerPayload, /* I Number of SILK frames per payload */
+ silk_TOC_struct *Silk_TOC /* O Type of content */
);
#ifdef __cplusplus
diff --git a/silk/CNG.c b/silk/CNG.c
index 0b43b86..d67e872 100644
--- a/silk/CNG.c
+++ b/silk/CNG.c
@@ -60,7 +60,7 @@
}
void silk_CNG_Reset(
- silk_decoder_state *psDec /* I/O Decoder state */
+ silk_decoder_state *psDec /* I/O Decoder state */
)
{
opus_int i, NLSF_step_Q15, NLSF_acc_Q15;
@@ -77,10 +77,10 @@
/* Updates CNG estimate, and applies the CNG when packet was lost */
void silk_CNG(
- silk_decoder_state *psDec, /* I/O Decoder state */
- silk_decoder_control *psDecCtrl, /* I/O Decoder control */
- opus_int16 frame[], /* I/O Signal data */
- opus_int length /* I Length of residual */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl, /* I/O Decoder control */
+ opus_int16 frame[], /* I/O Signal */
+ opus_int length /* I Length of residual */
)
{
opus_int i, j, subfr;
diff --git a/silk/HP_variable_cutoff.c b/silk/HP_variable_cutoff.c
index c66f47b..6eec9c1 100644
--- a/silk/HP_variable_cutoff.c
+++ b/silk/HP_variable_cutoff.c
@@ -37,7 +37,7 @@
/* 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 */
+ silk_encoder_state_Fxx state_Fxx[] /* I/O Encoder states */
)
{
opus_int quality_Q15;
diff --git a/silk/Inlines.h b/silk/Inlines.h
index 765e770..26b3b5a 100644
--- a/silk/Inlines.h
+++ b/silk/Inlines.h
@@ -38,7 +38,7 @@
#endif
/* count leading zeros of opus_int64 */
-static inline opus_int32 silk_CLZ64(opus_int64 in)
+static inline opus_int32 silk_CLZ64( opus_int64 in )
{
opus_int32 in_upper;
@@ -53,9 +53,11 @@
}
/* get number of leading zeros and fractional part (the bits right after the leading one */
-static inline void silk_CLZ_FRAC(opus_int32 in, /* I: input */
- opus_int32 *lz, /* O: number of leading zeros */
- opus_int32 *frac_Q7) /* O: the 7 bits right after the leading one */
+static inline void silk_CLZ_FRAC(
+ opus_int32 in, /* I input */
+ opus_int32 *lz, /* O number of leading zeros */
+ opus_int32 *frac_Q7 /* O the 7 bits right after the leading one */
+)
{
opus_int32 lzeros = silk_CLZ32(in);
@@ -66,7 +68,7 @@
/* Approximation of square root */
/* Accuracy: < +/- 10% for output values > 15 */
/* < +/- 2.5% for output values > 120 */
-static inline opus_int32 silk_SQRT_APPROX(opus_int32 x)
+static inline opus_int32 silk_SQRT_APPROX( opus_int32 x )
{
opus_int32 y, lz, frac_Q7;
@@ -92,10 +94,10 @@
}
/* Divide two int32 values and return result as int32 in a given Q-domain */
-static inline opus_int32 silk_DIV32_varQ( /* O returns a good approximation of "(a32 << Qres) / b32" */
- const opus_int32 a32, /* I numerator (Q0) */
- const opus_int32 b32, /* I denominator (Q0) */
- const opus_int Qres /* I Q-domain of result (>= 0) */
+static inline opus_int32 silk_DIV32_varQ( /* O returns a good approximation of "(a32 << Qres) / b32" */
+ const opus_int32 a32, /* I numerator (Q0) */
+ const opus_int32 b32, /* I denominator (Q0) */
+ const opus_int Qres /* I Q-domain of result (>= 0) */
)
{
opus_int a_headrm, b_headrm, lshift;
@@ -106,22 +108,22 @@
/* Compute number of bits head room and normalize inputs */
a_headrm = silk_CLZ32( silk_abs(a32) ) - 1;
- a32_nrm = silk_LSHIFT(a32, a_headrm); /* Q: a_headrm */
+ a32_nrm = silk_LSHIFT(a32, a_headrm); /* Q: a_headrm */
b_headrm = silk_CLZ32( silk_abs(b32) ) - 1;
- b32_nrm = silk_LSHIFT(b32, b_headrm); /* Q: b_headrm */
+ b32_nrm = silk_LSHIFT(b32, b_headrm); /* Q: b_headrm */
/* Inverse of b32, with 14 bits of precision */
- b32_inv = silk_DIV32_16( silk_int32_MAX >> 2, silk_RSHIFT(b32_nrm, 16) ); /* Q: 29 + 16 - b_headrm */
+ b32_inv = silk_DIV32_16( silk_int32_MAX >> 2, silk_RSHIFT(b32_nrm, 16) ); /* Q: 29 + 16 - b_headrm */
/* First approximation */
- result = silk_SMULWB(a32_nrm, b32_inv); /* Q: 29 + a_headrm - b_headrm */
+ result = silk_SMULWB(a32_nrm, b32_inv); /* Q: 29 + a_headrm - b_headrm */
/* Compute residual by subtracting product of denominator and first approximation */
/* It's OK to overflow because the final value of a32_nrm should always be small */
- a32_nrm = silk_SUB32_ovflw(a32_nrm, silk_LSHIFT_ovflw( silk_SMMUL(b32_nrm, result), 3 )); /* Q: a_headrm */
+ a32_nrm = silk_SUB32_ovflw(a32_nrm, silk_LSHIFT_ovflw( silk_SMMUL(b32_nrm, result), 3 )); /* Q: a_headrm */
/* Refinement */
- result = silk_SMLAWB(result, a32_nrm, b32_inv); /* Q: 29 + a_headrm - b_headrm */
+ result = silk_SMLAWB(result, a32_nrm, b32_inv); /* Q: 29 + a_headrm - b_headrm */
/* Convert to Qres domain */
lshift = 29 + a_headrm - b_headrm - Qres;
@@ -138,9 +140,9 @@
}
/* Invert int32 value and return result as int32 in a given Q-domain */
-static inline opus_int32 silk_INVERSE32_varQ( /* O returns a good approximation of "(1 << Qres) / b32" */
- const opus_int32 b32, /* I denominator (Q0) */
- const opus_int Qres /* I Q-domain of result (> 0) */
+static inline opus_int32 silk_INVERSE32_varQ( /* O returns a good approximation of "(1 << Qres) / b32" */
+ const opus_int32 b32, /* I denominator (Q0) */
+ const opus_int Qres /* I Q-domain of result (> 0) */
)
{
opus_int b_headrm, lshift;
@@ -151,19 +153,19 @@
/* Compute number of bits head room and normalize input */
b_headrm = silk_CLZ32( silk_abs(b32) ) - 1;
- b32_nrm = silk_LSHIFT(b32, b_headrm); /* Q: b_headrm */
+ b32_nrm = silk_LSHIFT(b32, b_headrm); /* Q: b_headrm */
/* Inverse of b32, with 14 bits of precision */
- b32_inv = silk_DIV32_16( silk_int32_MAX >> 2, silk_RSHIFT(b32_nrm, 16) ); /* Q: 29 + 16 - b_headrm */
+ b32_inv = silk_DIV32_16( silk_int32_MAX >> 2, silk_RSHIFT(b32_nrm, 16) ); /* Q: 29 + 16 - b_headrm */
/* First approximation */
- result = silk_LSHIFT(b32_inv, 16); /* Q: 61 - b_headrm */
+ result = silk_LSHIFT(b32_inv, 16); /* Q: 61 - b_headrm */
/* Compute residual by subtracting product of denominator and first approximation from one */
- err_Q32 = silk_LSHIFT( (1<<29) - silk_SMULWB(b32_nrm, b32_inv), 3 ); /* Q32 */
+ err_Q32 = silk_LSHIFT( (1<<29) - silk_SMULWB(b32_nrm, b32_inv), 3 ); /* Q32 */
/* Refinement */
- result = silk_SMLAWW(result, err_Q32, b32_inv); /* Q: 61 - b_headrm */
+ result = silk_SMLAWW(result, err_Q32, b32_inv); /* Q: 61 - b_headrm */
/* Convert to Qres domain */
lshift = 61 - b_headrm - Qres;
diff --git a/silk/LPC_analysis_filter.c b/silk/LPC_analysis_filter.c
index 5fc4349..bf5c284 100644
--- a/silk/LPC_analysis_filter.c
+++ b/silk/LPC_analysis_filter.c
@@ -39,11 +39,11 @@
/*******************************************/
void silk_LPC_analysis_filter(
- opus_int16 *out, /* O: Output signal */
- const opus_int16 *in, /* I: Input signal */
- const opus_int16 *B, /* I: MA prediction coefficients, Q12 [order] */
- const opus_int32 len, /* I: Signal length */
- const opus_int32 d /* I: Filter order */
+ opus_int16 *out, /* O Output signal */
+ const opus_int16 *in, /* I Input signal */
+ const opus_int16 *B, /* I MA prediction coefficients, Q12 [order] */
+ const opus_int32 len, /* I Signal length */
+ const opus_int32 d /* I Filter order */
)
{
opus_int ix, j;
@@ -54,10 +54,10 @@
silk_assert( (d & 1) == 0 );
silk_assert( d <= len );
- for ( ix = d; ix < len; ix++) {
+ for( ix = d; ix < len; ix++ ) {
in_ptr = &in[ ix - 1 ];
- out32_Q12 = silk_SMULBB( in_ptr[ 0 ], B[ 0 ] );
+ out32_Q12 = silk_SMULBB( in_ptr[ 0 ], B[ 0 ] );
/* Allowing wrap around so that two wraps can cancel each other. The rare
cases where the result wraps around can only be triggered by invalid streams*/
out32_Q12 = silk_SMLABB_ovflw( out32_Q12, in_ptr[ -1 ], B[ 1 ] );
diff --git a/silk/LPC_inv_pred_gain.c b/silk/LPC_inv_pred_gain.c
index 3a2ff66..fb989ac 100644
--- a/silk/LPC_inv_pred_gain.c
+++ b/silk/LPC_inv_pred_gain.c
@@ -31,18 +31,17 @@
#include "SigProc_FIX.h"
-#define QA 24
-#define A_LIMIT SILK_FIX_CONST( 0.99975, QA )
+#define QA 24
+#define A_LIMIT SILK_FIX_CONST( 0.99975, QA )
-#define MUL32_FRAC_Q(a32, b32, Q) ((opus_int32)(silk_RSHIFT_ROUND64(silk_SMULL(a32, b32), Q)))
+#define MUL32_FRAC_Q(a32, b32, Q) ((opus_int32)(silk_RSHIFT_ROUND64(silk_SMULL(a32, b32), Q)))
/* Compute inverse of LPC prediction gain, and */
/* test if LPC coefficients are stable (all poles within unit circle) */
-static opus_int LPC_inverse_pred_gain_QA( /* O: Returns 1 if unstable, otherwise 0 */
- opus_int32 *invGain_Q30, /* O: Inverse prediction gain, Q30 energy domain */
- opus_int32 A_QA[ 2 ][ SILK_MAX_ORDER_LPC ],
- /* I: Prediction coefficients */
- const opus_int order /* I: Prediction order */
+static opus_int LPC_inverse_pred_gain_QA( /* O Returns 1 if unstable, otherwise 0 */
+ opus_int32 *invGain_Q30, /* O Inverse prediction gain, Q30 energy domain */
+ opus_int32 A_QA[ 2 ][ SILK_MAX_ORDER_LPC ], /* I Prediction coefficients */
+ const opus_int order /* I Prediction order */
)
{
opus_int k, n, mult2Q;
@@ -108,10 +107,10 @@
}
/* For input in Q12 domain */
-opus_int silk_LPC_inverse_pred_gain( /* O: Returns 1 if unstable, otherwise 0 */
- opus_int32 *invGain_Q30, /* O: Inverse prediction gain, Q30 energy domain */
- const opus_int16 *A_Q12, /* I: Prediction coefficients, Q12 [order] */
- const opus_int order /* I: Prediction order */
+opus_int silk_LPC_inverse_pred_gain( /* O Returns 1 if unstable, otherwise 0 */
+ opus_int32 *invGain_Q30, /* O Inverse prediction gain, Q30 energy domain */
+ const opus_int16 *A_Q12, /* I Prediction coefficients, Q12 [order] */
+ const opus_int order /* I Prediction order */
)
{
opus_int k;
@@ -127,17 +126,17 @@
Anew_QA[ k ] = silk_LSHIFT( (opus_int32)A_Q12[ k ], QA - 12 );
}
/* If the DC is unstable, we don't even need to do the full calculations */
- if ( DC_resp >= 4096 ) {
+ if( DC_resp >= 4096 ) {
return 1;
}
return LPC_inverse_pred_gain_QA( invGain_Q30, Atmp_QA, order );
}
/* For input in Q24 domain */
-opus_int silk_LPC_inverse_pred_gain_Q24( /* O: Returns 1 if unstable, otherwise 0 */
- opus_int32 *invGain_Q30, /* O: Inverse prediction gain, Q30 energy domain */
- const opus_int32 *A_Q24, /* I: Prediction coefficients, Q24 [order] */
- const opus_int order /* I: Prediction order */
+opus_int silk_LPC_inverse_pred_gain_Q24( /* O Returns 1 if unstable, otherwise 0 */
+ opus_int32 *invGain_Q30, /* O Inverse prediction gain, Q30 energy domain */
+ const opus_int32 *A_Q24, /* I Prediction coefficients, Q24 [order] */
+ const opus_int order /* I Prediction order */
)
{
opus_int k;
diff --git a/silk/LP_variable_cutoff.c b/silk/LP_variable_cutoff.c
index 2ed062c..44f541e 100644
--- a/silk/LP_variable_cutoff.c
+++ b/silk/LP_variable_cutoff.c
@@ -30,12 +30,11 @@
#endif
/*
-
Elliptic/Cauer filters designed with 0.1 dB passband ripple,
- 80 dB minimum stopband attenuation, and
- [0.95 : 0.15 : 0.35] normalized cut off frequencies.
-
+ 80 dB minimum stopband attenuation, and
+ [0.95 : 0.15 : 0.35] normalized cut off frequencies.
*/
+
#include "main.h"
/* Helper function, interpolates the filter taps */
@@ -99,9 +98,9 @@
/* Start by setting psEncC->mode <> 0; */
/* Deactivate by setting psEncC->mode = 0; */
void silk_LP_variable_cutoff(
- silk_LP_state *psLP, /* I/O LP filter state */
- opus_int16 *frame, /* I/O Low-pass filtered output */
- const opus_int frame_length /* I Frame length */
+ silk_LP_state *psLP, /* I/O LP filter state */
+ opus_int16 *frame, /* I/O Low-pass filtered output signal */
+ const opus_int frame_length /* I Frame length */
)
{
opus_int32 B_Q28[ TRANSITION_NB ], A_Q28[ TRANSITION_NA ], fac_Q16 = 0;
diff --git a/silk/MacroDebug.h b/silk/MacroDebug.h
index 89f7f31..e407b80 100644
--- a/silk/MacroDebug.h
+++ b/silk/MacroDebug.h
@@ -33,7 +33,7 @@
#if 0 && defined (_DEBUG) && !defined (silk_MACRO_COUNT)
-#undef silk_ADD16
+#undef silk_ADD16
static inline opus_int16 silk_ADD16(opus_int16 a, opus_int16 b){
opus_int16 ret;
@@ -42,7 +42,7 @@
return ret;
}
-#undef silk_ADD32
+#undef silk_ADD32
static inline opus_int32 silk_ADD32(opus_int32 a, opus_int32 b){
opus_int32 ret;
@@ -51,7 +51,7 @@
return ret;
}
-#undef silk_ADD64
+#undef silk_ADD64
static inline opus_int64 silk_ADD64(opus_int64 a, opus_int64 b){
opus_int64 ret;
@@ -60,7 +60,7 @@
return ret;
}
-#undef silk_SUB16
+#undef silk_SUB16
static inline opus_int16 silk_SUB16(opus_int16 a, opus_int16 b){
opus_int16 ret;
@@ -69,7 +69,7 @@
return ret;
}
-#undef silk_SUB32
+#undef silk_SUB32
static inline opus_int32 silk_SUB32(opus_int32 a, opus_int32 b){
opus_int32 ret;
@@ -78,7 +78,7 @@
return ret;
}
-#undef silk_SUB64
+#undef silk_SUB64
static inline opus_int64 silk_SUB64(opus_int64 a, opus_int64 b){
opus_int64 ret;
@@ -175,6 +175,7 @@
silk_assert((opus_uint64)ret == (opus_uint64)a32 * (opus_uint64)b32); /* Check output overflow */
return ret;
}
+
#undef silk_MLA
static inline opus_int32 silk_MLA(opus_int32 a32, opus_int32 b32, opus_int32 c32){
opus_int32 ret;
@@ -191,14 +192,15 @@
return ret;
}
-#undef silk_SMULWB
+#undef silk_SMULWB
static inline opus_int32 silk_SMULWB(opus_int32 a32, opus_int32 b32){
opus_int32 ret;
ret = (a32 >> 16) * (opus_int32)((opus_int16)b32) + (((a32 & 0x0000FFFF) * (opus_int32)((opus_int16)b32)) >> 16);
silk_assert((opus_int64)ret == ((opus_int64)a32 * (opus_int16)b32) >> 16);
return ret;
}
-#undef silk_SMLAWB
+
+#undef silk_SMLAWB
static inline opus_int32 silk_SMLAWB(opus_int32 a32, opus_int32 b32, opus_int32 c32){
opus_int32 ret;
ret = silk_ADD32( a32, silk_SMULWB( b32, c32 ) );
@@ -213,6 +215,7 @@
silk_assert((opus_int64)ret == ((opus_int64)a32 * (b32 >> 16)) >> 16);
return ret;
}
+
#undef silk_SMLAWT
static inline opus_int32 silk_SMLAWT(opus_int32 a32, opus_int32 b32, opus_int32 c32){
opus_int32 ret;
@@ -234,7 +237,7 @@
}
/* no checking needed for silk_SMULBB */
-#undef silk_SMLABB
+#undef silk_SMLABB
static inline opus_int32 silk_SMLABB(opus_int32 a32, opus_int32 b32, opus_int32 c32){
opus_int32 ret;
ret = a32 + (opus_int32)((opus_int16)b32) * (opus_int32)((opus_int16)c32);
@@ -243,7 +246,7 @@
}
/* no checking needed for silk_SMULBT */
-#undef silk_SMLABT
+#undef silk_SMLABT
static inline opus_int32 silk_SMLABT(opus_int32 a32, opus_int32 b32, opus_int32 c32){
opus_int32 ret;
ret = a32 + ((opus_int32)((opus_int16)b32)) * (c32 >> 16);
@@ -252,7 +255,7 @@
}
/* no checking needed for silk_SMULTT */
-#undef silk_SMLATT
+#undef silk_SMLATT
static inline opus_int32 silk_SMLATT(opus_int32 a32, opus_int32 b32, opus_int32 c32){
opus_int32 ret;
ret = a32 + (b32 >> 16) * (c32 >> 16);
@@ -260,7 +263,7 @@
return ret;
}
-#undef silk_SMULWW
+#undef silk_SMULWW
static inline opus_int32 silk_SMULWW(opus_int32 a32, opus_int32 b32){
opus_int32 ret, tmp1, tmp2;
opus_int64 ret64;
@@ -281,7 +284,7 @@
return ret;
}
-#undef silk_SMLAWW
+#undef silk_SMLAWW
static inline opus_int32 silk_SMLAWW(opus_int32 a32, opus_int32 b32, opus_int32 c32){
opus_int32 ret, tmp;
@@ -292,9 +295,9 @@
}
/* Multiply-accumulate macros that allow overflow in the addition (ie, no asserts in debug mode) */
-#undef silk_MLA_ovflw
+#undef silk_MLA_ovflw
#define silk_MLA_ovflw(a32, b32, c32) ((a32) + ((b32) * (c32)))
-#undef silk_SMLABB_ovflw
+#undef silk_SMLABB_ovflw
#define silk_SMLABB_ovflw(a32, b32, c32) ((a32) + ((opus_int32)((opus_int16)(b32))) * (opus_int32)((opus_int16)(c32)))
/* no checking needed for silk_SMULL
@@ -325,7 +328,8 @@
no checking needed for silk_ADD_POS_SAT16
no checking needed for silk_ADD_POS_SAT32
no checking needed for silk_ADD_POS_SAT64 */
-#undef silk_LSHIFT8
+
+#undef silk_LSHIFT8
static inline opus_int8 silk_LSHIFT8(opus_int8 a, opus_int32 shift){
opus_int8 ret;
ret = a << shift;
@@ -334,7 +338,8 @@
silk_assert((opus_int64)ret == ((opus_int64)a) << shift);
return ret;
}
-#undef silk_LSHIFT16
+
+#undef silk_LSHIFT16
static inline opus_int16 silk_LSHIFT16(opus_int16 a, opus_int32 shift){
opus_int16 ret;
ret = a << shift;
@@ -343,7 +348,8 @@
silk_assert((opus_int64)ret == ((opus_int64)a) << shift);
return ret;
}
-#undef silk_LSHIFT32
+
+#undef silk_LSHIFT32
static inline opus_int32 silk_LSHIFT32(opus_int32 a, opus_int32 shift){
opus_int32 ret;
ret = a << shift;
@@ -352,20 +358,21 @@
silk_assert((opus_int64)ret == ((opus_int64)a) << shift);
return ret;
}
-#undef silk_LSHIFT64
+
+#undef silk_LSHIFT64
static inline opus_int64 silk_LSHIFT64(opus_int64 a, opus_int shift){
silk_assert(shift >= 0);
silk_assert(shift < 64);
return a << shift;
}
-#undef silk_LSHIFT_ovflw
+#undef silk_LSHIFT_ovflw
static inline opus_int32 silk_LSHIFT_ovflw(opus_int32 a, opus_int32 shift){
silk_assert(shift >= 0); /* no check for overflow */
return a << shift;
}
-#undef silk_LSHIFT_uint
+#undef silk_LSHIFT_uint
static inline opus_uint32 silk_LSHIFT_uint(opus_uint32 a, opus_int32 shift){
opus_uint32 ret;
ret = a << shift;
@@ -374,39 +381,42 @@
return ret;
}
-#undef silk_RSHIFT8
+#undef silk_RSHIFT8
static inline opus_int8 silk_RSHIFT8(opus_int8 a, opus_int32 shift){
silk_assert(shift >= 0);
silk_assert(shift < 8);
return a >> shift;
}
-#undef silk_RSHIFT16
+
+#undef silk_RSHIFT16
static inline opus_int16 silk_RSHIFT16(opus_int16 a, opus_int32 shift){
silk_assert(shift >= 0);
silk_assert(shift < 16);
return a >> shift;
}
-#undef silk_RSHIFT32
+
+#undef silk_RSHIFT32
static inline opus_int32 silk_RSHIFT32(opus_int32 a, opus_int32 shift){
silk_assert(shift >= 0);
silk_assert(shift < 32);
return a >> shift;
}
-#undef silk_RSHIFT64
+
+#undef silk_RSHIFT64
static inline opus_int64 silk_RSHIFT64(opus_int64 a, opus_int64 shift){
silk_assert(shift >= 0);
silk_assert(shift <= 63);
return a >> shift;
}
-#undef silk_RSHIFT_uint
+#undef silk_RSHIFT_uint
static inline opus_uint32 silk_RSHIFT_uint(opus_uint32 a, opus_int32 shift){
silk_assert(shift >= 0);
silk_assert(shift <= 32);
return a >> shift;
}
-#undef silk_ADD_LSHIFT
+#undef silk_ADD_LSHIFT
static inline opus_int32 silk_ADD_LSHIFT(opus_int32 a, opus_int32 b, opus_int32 shift){
opus_int32 ret;
silk_assert(shift >= 0);
@@ -415,7 +425,8 @@
silk_assert((opus_int64)ret == (opus_int64)a + (((opus_int64)b) << shift));
return ret; /* shift >= 0 */
}
-#undef silk_ADD_LSHIFT32
+
+#undef silk_ADD_LSHIFT32
static inline opus_int32 silk_ADD_LSHIFT32(opus_int32 a, opus_int32 b, opus_int32 shift){
opus_int32 ret;
silk_assert(shift >= 0);
@@ -424,7 +435,8 @@
silk_assert((opus_int64)ret == (opus_int64)a + (((opus_int64)b) << shift));
return ret; /* shift >= 0 */
}
-#undef silk_ADD_LSHIFT_uint
+
+#undef silk_ADD_LSHIFT_uint
static inline opus_uint32 silk_ADD_LSHIFT_uint(opus_uint32 a, opus_uint32 b, opus_int32 shift){
opus_uint32 ret;
silk_assert(shift >= 0);
@@ -433,7 +445,8 @@
silk_assert((opus_int64)ret == (opus_int64)a + (((opus_int64)b) << shift));
return ret; /* shift >= 0 */
}
-#undef silk_ADD_RSHIFT
+
+#undef silk_ADD_RSHIFT
static inline opus_int32 silk_ADD_RSHIFT(opus_int32 a, opus_int32 b, opus_int32 shift){
opus_int32 ret;
silk_assert(shift >= 0);
@@ -442,7 +455,8 @@
silk_assert((opus_int64)ret == (opus_int64)a + (((opus_int64)b) >> shift));
return ret; /* shift > 0 */
}
-#undef silk_ADD_RSHIFT32
+
+#undef silk_ADD_RSHIFT32
static inline opus_int32 silk_ADD_RSHIFT32(opus_int32 a, opus_int32 b, opus_int32 shift){
opus_int32 ret;
silk_assert(shift >= 0);
@@ -451,7 +465,8 @@
silk_assert((opus_int64)ret == (opus_int64)a + (((opus_int64)b) >> shift));
return ret; /* shift > 0 */
}
-#undef silk_ADD_RSHIFT_uint
+
+#undef silk_ADD_RSHIFT_uint
static inline opus_uint32 silk_ADD_RSHIFT_uint(opus_uint32 a, opus_uint32 b, opus_int32 shift){
opus_uint32 ret;
silk_assert(shift >= 0);
@@ -460,7 +475,8 @@
silk_assert((opus_int64)ret == (opus_int64)a + (((opus_int64)b) >> shift));
return ret; /* shift > 0 */
}
-#undef silk_SUB_LSHIFT32
+
+#undef silk_SUB_LSHIFT32
static inline opus_int32 silk_SUB_LSHIFT32(opus_int32 a, opus_int32 b, opus_int32 shift){
opus_int32 ret;
silk_assert(shift >= 0);
@@ -469,7 +485,8 @@
silk_assert((opus_int64)ret == (opus_int64)a - (((opus_int64)b) << shift));
return ret; /* shift >= 0 */
}
-#undef silk_SUB_RSHIFT32
+
+#undef silk_SUB_RSHIFT32
static inline opus_int32 silk_SUB_RSHIFT32(opus_int32 a, opus_int32 b, opus_int32 shift){
opus_int32 ret;
silk_assert(shift >= 0);
@@ -479,7 +496,7 @@
return ret; /* shift > 0 */
}
-#undef silk_RSHIFT_ROUND
+#undef silk_RSHIFT_ROUND
static inline opus_int32 silk_RSHIFT_ROUND(opus_int32 a, opus_int32 shift){
opus_int32 ret;
silk_assert(shift > 0); /* the marco definition can't handle a shift of zero */
@@ -489,7 +506,7 @@
return ret;
}
-#undef silk_RSHIFT_ROUND64
+#undef silk_RSHIFT_ROUND64
static inline opus_int64 silk_RSHIFT_ROUND64(opus_int64 a, opus_int32 shift){
opus_int64 ret;
silk_assert(shift > 0); /* the marco definition can't handle a shift of zero */
@@ -499,25 +516,25 @@
}
/* silk_abs is used on floats also, so doesn't work... */
-/*#undef silk_abs
+/*#undef silk_abs
static inline opus_int32 silk_abs(opus_int32 a){
silk_assert(a != 0x80000000);
return (((a) > 0) ? (a) : -(a)); // Be careful, silk_abs returns wrong when input equals to silk_intXX_MIN
}*/
-#undef silk_abs_int64
+#undef silk_abs_int64
static inline opus_int64 silk_abs_int64(opus_int64 a){
silk_assert(a != 0x8000000000000000);
return (((a) > 0) ? (a) : -(a)); /* Be careful, silk_abs returns wrong when input equals to silk_intXX_MIN */
}
-#undef silk_abs_int32
+#undef silk_abs_int32
static inline opus_int32 silk_abs_int32(opus_int32 a){
silk_assert(a != 0x80000000);
return abs(a);
}
-#undef silk_CHECK_FIT8
+#undef silk_CHECK_FIT8
static inline opus_int8 silk_CHECK_FIT8( opus_int64 a ){
opus_int8 ret;
ret = (opus_int8)a;
@@ -525,7 +542,7 @@
return( ret );
}
-#undef silk_CHECK_FIT16
+#undef silk_CHECK_FIT16
static inline opus_int16 silk_CHECK_FIT16( opus_int64 a ){
opus_int16 ret;
ret = (opus_int16)a;
@@ -533,7 +550,7 @@
return( ret );
}
-#undef silk_CHECK_FIT32
+#undef silk_CHECK_FIT32
static inline opus_int32 silk_CHECK_FIT32( opus_int64 a ){
opus_int32 ret;
ret = (opus_int32)a;
diff --git a/silk/NLSF2A.c b/silk/NLSF2A.c
index d43b61d..abb73ed 100644
--- a/silk/NLSF2A.c
+++ b/silk/NLSF2A.c
@@ -64,9 +64,9 @@
/* compute whitening filter coefficients from normalized line spectral frequencies */
void silk_NLSF2A(
- opus_int16 *a_Q12, /* O monic whitening filter coefficients in Q12, [ d ] */
- const opus_int16 *NLSF, /* I normalized line spectral frequencies in Q15, [ d ] */
- const opus_int d /* I filter order (should be even) */
+ opus_int16 *a_Q12, /* O monic whitening filter coefficients in Q12, [ d ] */
+ const opus_int16 *NLSF, /* I normalized line spectral frequencies in Q15, [ d ] */
+ const opus_int d /* I filter order (should be even) */
)
{
/* This ordering was found to maximize quality. It improves numerical accuracy of
diff --git a/silk/NLSF_VQ.c b/silk/NLSF_VQ.c
index a9d781a..e547542 100644
--- a/silk/NLSF_VQ.c
+++ b/silk/NLSF_VQ.c
@@ -33,11 +33,11 @@
/* Compute quantization errors for an LPC_order element input vector for a VQ codebook */
void silk_NLSF_VQ(
- opus_int32 err_Q26[], /* O Quantization errors [K] */
- const opus_int16 in_Q15[], /* I Input vectors to be quantized [LPC_order] */
- const opus_uint8 pCB_Q8[], /* I Codebook vectors [K*LPC_order] */
- const opus_int K, /* I Number of codebook vectors */
- const opus_int LPC_order /* I Number of LPCs */
+ opus_int32 err_Q26[], /* O Quantization errors [K] */
+ const opus_int16 in_Q15[], /* I Input vectors to be quantized [LPC_order] */
+ const opus_uint8 pCB_Q8[], /* I Codebook vectors [K*LPC_order] */
+ const opus_int K, /* I Number of codebook vectors */
+ const opus_int LPC_order /* I Number of LPCs */
)
{
opus_int i, m;
diff --git a/silk/NLSF_VQ_weights_laroia.c b/silk/NLSF_VQ_weights_laroia.c
index 887d347..8e8be43 100644
--- a/silk/NLSF_VQ_weights_laroia.c
+++ b/silk/NLSF_VQ_weights_laroia.c
@@ -40,9 +40,9 @@
/* Laroia low complexity NLSF weights */
void silk_NLSF_VQ_weights_laroia(
- opus_int16 *pNLSFW_Q_OUT, /* O: Pointer to input vector weights [D x 1] */
- const opus_int16 *pNLSF_Q15, /* I: Pointer to input vector [D x 1] */
- const opus_int D /* I: Input vector dimension (even) */
+ opus_int16 *pNLSFW_Q_OUT, /* O Pointer to input vector weights [D] */
+ const opus_int16 *pNLSF_Q15, /* I Pointer to input vector [D] */
+ const opus_int D /* I Input vector dimension (even) */
)
{
opus_int k;
diff --git a/silk/NLSF_decode.c b/silk/NLSF_decode.c
index 43f4f9f..b1b83ae 100644
--- a/silk/NLSF_decode.c
+++ b/silk/NLSF_decode.c
@@ -61,9 +61,9 @@
/* NLSF vector decoder */
/***********************/
void silk_NLSF_decode(
- opus_int16 *pNLSF_Q15, /* O Quantized NLSF vector [ LPC_ORDER ] */
- opus_int8 *NLSFIndices, /* I Codebook path vector [ LPC_ORDER + 1 ] */
- const silk_NLSF_CB_struct *psNLSF_CB /* I Codebook object */
+ opus_int16 *pNLSF_Q15, /* O Quantized NLSF vector [ LPC_ORDER ] */
+ opus_int8 *NLSFIndices, /* I Codebook path vector [ LPC_ORDER + 1 ] */
+ const silk_NLSF_CB_struct *psNLSF_CB /* I Codebook object */
)
{
opus_int i;
diff --git a/silk/NLSF_del_dec_quant.c b/silk/NLSF_del_dec_quant.c
index 926ad7f..d2eef3c 100644
--- a/silk/NLSF_del_dec_quant.c
+++ b/silk/NLSF_del_dec_quant.c
@@ -32,17 +32,17 @@
#include "main.h"
/* Delayed-decision quantizer for NLSF residuals */
-opus_int32 silk_NLSF_del_dec_quant( /* O Returns RD value in Q25 */
- opus_int8 indices[], /* O Quantization indices [ order ] */
- const opus_int16 x_Q10[], /* I Input [ order ] */
- const opus_int16 w_Q5[], /* I Weights [ order ] */
- const opus_uint8 pred_coef_Q8[], /* I Backward predictor coefs [ order ] */
- const opus_int16 ec_ix[], /* I Indices to entropy coding tables [ order ] */
- const opus_uint8 ec_rates_Q5[], /* I Rates [] */
- const opus_int quant_step_size_Q16, /* I Quantization step size */
- const opus_int16 inv_quant_step_size_Q6, /* I Inverse quantization step size */
- const opus_int32 mu_Q20, /* I R/D tradeoff */
- const opus_int16 order /* I Number of input values */
+opus_int32 silk_NLSF_del_dec_quant( /* O Returns RD value in Q25 */
+ opus_int8 indices[], /* O Quantization indices [ order ] */
+ const opus_int16 x_Q10[], /* I Input [ order ] */
+ const opus_int16 w_Q5[], /* I Weights [ order ] */
+ const opus_uint8 pred_coef_Q8[], /* I Backward predictor coefs [ order ] */
+ const opus_int16 ec_ix[], /* I Indices to entropy coding tables [ order ] */
+ const opus_uint8 ec_rates_Q5[], /* I Rates [] */
+ const opus_int quant_step_size_Q16, /* I Quantization step size */
+ const opus_int16 inv_quant_step_size_Q6, /* I Inverse quantization step size */
+ const opus_int32 mu_Q20, /* I R/D tradeoff */
+ const opus_int16 order /* I Number of input values */
)
{
opus_int i, j, nStates, ind_tmp, ind_min_max, ind_max_min, in_Q10, res_Q10;
@@ -182,7 +182,7 @@
ind[ j ][ i ] += silk_RSHIFT( ind_sort[ j ], NLSF_QUANT_DEL_DEC_STATES_LOG2 );
}
} else { /* i == 0 */
- break;
+ break;
}
}
diff --git a/silk/NLSF_encode.c b/silk/NLSF_encode.c
index fbff0a0..cc84160 100644
--- a/silk/NLSF_encode.c
+++ b/silk/NLSF_encode.c
@@ -31,19 +31,17 @@
#include "main.h"
-#define STORE_LSF_DATA_FOR_TRAINING 0
-
/***********************/
/* NLSF vector encoder */
/***********************/
-opus_int32 silk_NLSF_encode( /* O Returns RD value in Q25 */
- opus_int8 *NLSFIndices, /* I Codebook path vector [ LPC_ORDER + 1 ] */
- opus_int16 *pNLSF_Q15, /* I/O Quantized NLSF vector [ LPC_ORDER ] */
- const silk_NLSF_CB_struct *psNLSF_CB, /* I Codebook object */
- const opus_int16 *pW_QW, /* I NLSF weight vector [ LPC_ORDER ] */
- const opus_int NLSF_mu_Q20, /* I Rate weight for the RD optimization */
- const opus_int nSurvivors, /* I Max survivors after first stage */
- const opus_int signalType /* I Signal type: 0/1/2 */
+opus_int32 silk_NLSF_encode( /* O Returns RD value in Q25 */
+ opus_int8 *NLSFIndices, /* I Codebook path vector [ LPC_ORDER + 1 ] */
+ opus_int16 *pNLSF_Q15, /* I/O Quantized NLSF vector [ LPC_ORDER ] */
+ const silk_NLSF_CB_struct *psNLSF_CB, /* I Codebook object */
+ const opus_int16 *pW_QW, /* I NLSF weight vector [ LPC_ORDER ] */
+ const opus_int NLSF_mu_Q20, /* I Rate weight for the RD optimization */
+ const opus_int nSurvivors, /* I Max survivors after first stage */
+ const opus_int signalType /* I Signal type: 0/1/2 */
)
{
opus_int i, s, ind1, bestIndex, prob_Q8, bits_q7;
@@ -61,15 +59,6 @@
opus_int16 ec_ix[ MAX_LPC_ORDER ];
const opus_uint8 *pCB_element, *iCDF_ptr;
-#if STORE_LSF_DATA_FOR_TRAINING
- opus_int16 pNLSF_Q15_orig[MAX_LPC_ORDER ];
- DEBUG_STORE_DATA( NLSF.dat, pNLSF_Q15, psNLSF_CB->order * sizeof( opus_int16 ) );
- DEBUG_STORE_DATA( WNLSF.dat, pW_Q5, psNLSF_CB->order * sizeof( opus_int16 ) );
- DEBUG_STORE_DATA( NLSF_mu.dat, &NLSF_mu_Q20, sizeof( opus_int ) );
- DEBUG_STORE_DATA( sigType.dat, &signalType, sizeof( opus_int ) );
- silk_memcpy(pNLSF_Q15_orig, pNLSF_Q15, sizeof( pNLSF_Q15_orig ));
-#endif
-
silk_assert( nSurvivors <= NLSF_VQ_MAX_SURVIVORS );
silk_assert( signalType >= 0 && signalType <= 2 );
silk_assert( NLSF_mu_Q20 <= 32767 && NLSF_mu_Q20 >= 0 );
@@ -135,53 +124,5 @@
/* Decode */
silk_NLSF_decode( pNLSF_Q15, NLSFIndices, psNLSF_CB );
-#if STORE_LSF_DATA_FOR_TRAINING
- {
- /* code for training the codebooks */
- opus_int32 RD_dec_Q22, Dist_Q22_dec, Rate_Q7, diff_Q15;
- ind1 = NLSFIndices[ 0 ];
- silk_NLSF_unpack( ec_ix, pred_Q8, psNLSF_CB, ind1 );
-
- pCB_element = &psNLSF_CB->CB1_NLSF_Q8[ ind1 * psNLSF_CB->order ];
- for( i = 0; i < psNLSF_CB->order; i++ ) {
- NLSF_tmp_Q15[ i ] = silk_LSHIFT16( ( opus_int16 )pCB_element[ i ], 7 );
- }
- silk_NLSF_VQ_weights_laroia( W_tmp_QW, NLSF_tmp_Q15, psNLSF_CB->order );
- for( i = 0; i < psNLSF_CB->order; i++ ) {
- W_tmp_Q9 = silk_SQRT_APPROX( silk_LSHIFT( ( opus_int32 )W_tmp_QW[ i ], 18 - NLSF_W_Q ) );
- res_Q15[ i ] = pNLSF_Q15_orig[ i ] - NLSF_tmp_Q15[ i ];
- res_Q10[ i ] = (opus_int16)silk_RSHIFT( silk_SMULBB( res_Q15[ i ], W_tmp_Q9 ), 14 );
- DEBUG_STORE_DATA( NLSF_res_q10.dat, &res_Q10[ i ], sizeof( opus_int16 ) );
- res_Q15[ i ] = pNLSF_Q15[ i ] - NLSF_tmp_Q15[ i ];
- res_Q10[ i ] = (opus_int16)silk_RSHIFT( silk_SMULBB( res_Q15[ i ], W_tmp_Q9 ), 14 );
- DEBUG_STORE_DATA( NLSF_resq_q10.dat, &res_Q10[ i ], sizeof( opus_int16 ) );
- }
-
- Dist_Q22_dec = 0;
- for( i = 0; i < psNLSF_CB->order; i++ ) {
- diff_Q15 = pNLSF_Q15_orig[ i ] - pNLSF_Q15[ i ];
- Dist_Q22_dec += ( ( (diff_Q15 >> 5) * (diff_Q15 >> 5) ) * pW_Q5[ i ] ) >> 3;
- }
- iCDF_ptr = &psNLSF_CB->CB1_iCDF[ ( signalType >> 1 ) * psNLSF_CB->nVectors ];
- if( ind1 == 0 ) {
- prob_Q8 = 256 - iCDF_ptr[ ind1 ];
- } else {
- prob_Q8 = iCDF_ptr[ ind1 - 1 ] - iCDF_ptr[ ind1 ];
- }
- Rate_Q7 = ( 8 << 7 ) - silk_lin2log( prob_Q8 );
- for( i = 0; i < psNLSF_CB->order; i++ ) {
- Rate_Q7 += ((int)psNLSF_CB->ec_Rates_Q5[ ec_ix[ i ] + silk_LIMIT( NLSFIndices[ i + 1 ] + NLSF_QUANT_MAX_AMPLITUDE, 0, 2 * NLSF_QUANT_MAX_AMPLITUDE ) ] ) << 2;
- if( silk_abs( NLSFIndices[ i + 1 ] ) >= NLSF_QUANT_MAX_AMPLITUDE ) {
- Rate_Q7 += 128 << ( silk_abs( NLSFIndices[ i + 1 ] ) - NLSF_QUANT_MAX_AMPLITUDE );
- }
- }
- RD_dec_Q22 = Dist_Q22_dec + Rate_Q7 * NLSF_mu_Q20 >> 5;
- DEBUG_STORE_DATA( dec_dist_q22.dat, &Dist_Q22_dec, sizeof( opus_int32 ) );
- DEBUG_STORE_DATA( dec_rate_q7.dat, &Rate_Q7, sizeof( opus_int32 ) );
- DEBUG_STORE_DATA( dec_rd_q22.dat, &RD_dec_Q22, sizeof( opus_int32 ) );
- }
- DEBUG_STORE_DATA( NLSF_ind.dat, NLSFIndices, (psNLSF_CB->order+1) * sizeof( opus_int8 ) );
-#endif
-
return RD_Q25[ 0 ];
}
diff --git a/silk/NLSF_stabilize.c b/silk/NLSF_stabilize.c
index 1c7d60b..d818ff0 100644
--- a/silk/NLSF_stabilize.c
+++ b/silk/NLSF_stabilize.c
@@ -45,9 +45,9 @@
/* NLSF stabilizer, for a single input data vector */
void silk_NLSF_stabilize(
- opus_int16 *NLSF_Q15, /* I/O: Unstable/stabilized normalized LSF vector in Q15 [L] */
- const opus_int16 *NDeltaMin_Q15, /* I: Normalized delta min vector in Q15, NDeltaMin_Q15[L] must be >= 1 [L+1] */
- const opus_int L /* I: Number of NLSF parameters in the input vector */
+ opus_int16 *NLSF_Q15, /* I/O Unstable/stabilized normalized LSF vector in Q15 [L] */
+ const opus_int16 *NDeltaMin_Q15, /* I Min distance vector, NDeltaMin_Q15[L] must be >= 1 [L+1] */
+ const opus_int L /* I Number of NLSF parameters in the input vector */
)
{
opus_int i, I=0, k, loops;
@@ -82,7 +82,7 @@
/***************************************************/
/* Now check if the smallest distance non-negative */
/***************************************************/
- if (min_diff_Q15 >= 0) {
+ if( min_diff_Q15 >= 0 ) {
return;
}
diff --git a/silk/NLSF_unpack.c b/silk/NLSF_unpack.c
index 3f4d292..46b2940 100644
--- a/silk/NLSF_unpack.c
+++ b/silk/NLSF_unpack.c
@@ -33,10 +33,10 @@
/* Unpack predictor values and indices for entropy coding tables */
void silk_NLSF_unpack(
- opus_int16 ec_ix[], /* O Indices to entropy tales [ LPC_ORDER ] */
- opus_uint8 pred_Q8[], /* O LSF predictor [ LPC_ORDER ] */
- const silk_NLSF_CB_struct *psNLSF_CB, /* I Codebook object */
- const opus_int CB1_index /* I Index of vector in first LSF codebook */
+ opus_int16 ec_ix[], /* O Indices to entropy tales [ LPC_ORDER ] */
+ opus_uint8 pred_Q8[], /* O LSF predictor [ LPC_ORDER ] */
+ const silk_NLSF_CB_struct *psNLSF_CB, /* I Codebook object */
+ const opus_int CB1_index /* I Index of vector in first LSF codebook */
)
{
opus_int i;
diff --git a/silk/NSQ.c b/silk/NSQ.c
index 6bd39eb..031b581 100644
--- a/silk/NSQ.c
+++ b/silk/NSQ.c
@@ -32,57 +32,57 @@
#include "main.h"
static inline void silk_nsq_scale_states(
- const silk_encoder_state *psEncC, /* I Encoder State */
- silk_nsq_state *NSQ, /* I/O NSQ state */
- const opus_int16 x[], /* I input in Q0 */
- opus_int32 x_sc_Q10[], /* O input scaled with 1/Gain */
- const opus_int16 sLTP[], /* I re-whitened LTP state in Q0 */
- opus_int32 sLTP_Q16[], /* O LTP state matching scaled input */
- opus_int subfr, /* I subframe number */
- const opus_int LTP_scale_Q14, /* I */
- const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
- const opus_int signal_type /* I Signal type */
+ const silk_encoder_state *psEncC, /* I Encoder State */
+ silk_nsq_state *NSQ, /* I/O NSQ state */
+ const opus_int16 x[], /* I input in Q0 */
+ opus_int32 x_sc_Q10[], /* O input scaled with 1/Gain */
+ const opus_int16 sLTP[], /* I re-whitened LTP state in Q0 */
+ opus_int32 sLTP_Q16[], /* O LTP state matching scaled input */
+ opus_int subfr, /* I subframe number */
+ const opus_int LTP_scale_Q14, /* I */
+ const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
+ const opus_int signal_type /* I Signal type */
);
static inline void silk_noise_shape_quantizer(
- silk_nsq_state *NSQ, /* I/O NSQ state */
- opus_int signalType, /* I Signal type */
- const opus_int32 x_sc_Q10[], /* I */
- opus_int8 pulses[], /* O */
- opus_int16 xq[], /* O */
- opus_int32 sLTP_Q16[], /* I/O LTP state */
- const opus_int16 a_Q12[], /* I Short term prediction coefs */
- const opus_int16 b_Q14[], /* I Long term prediction coefs */
- const opus_int16 AR_shp_Q13[], /* I Noise shaping AR coefs */
- opus_int lag, /* I Pitch lag */
- opus_int32 HarmShapeFIRPacked_Q14, /* I */
- opus_int Tilt_Q14, /* I Spectral tilt */
- opus_int32 LF_shp_Q14, /* I */
- opus_int32 Gain_Q16, /* I */
- opus_int Lambda_Q10, /* I */
- opus_int offset_Q10, /* I */
- opus_int length, /* I Input length */
- opus_int shapingLPCOrder, /* I Noise shaping AR filter order */
- opus_int predictLPCOrder /* I Prediction filter order */
+ silk_nsq_state *NSQ, /* I/O NSQ state */
+ opus_int signalType, /* I Signal type */
+ const opus_int32 x_sc_Q10[], /* I */
+ opus_int8 pulses[], /* O */
+ opus_int16 xq[], /* O */
+ opus_int32 sLTP_Q16[], /* I/O LTP state */
+ const opus_int16 a_Q12[], /* I Short term prediction coefs */
+ const opus_int16 b_Q14[], /* I Long term prediction coefs */
+ const opus_int16 AR_shp_Q13[], /* I Noise shaping AR coefs */
+ opus_int lag, /* I Pitch lag */
+ opus_int32 HarmShapeFIRPacked_Q14, /* I */
+ opus_int Tilt_Q14, /* I Spectral tilt */
+ opus_int32 LF_shp_Q14, /* I */
+ opus_int32 Gain_Q16, /* I */
+ opus_int Lambda_Q10, /* I */
+ opus_int offset_Q10, /* I */
+ opus_int length, /* I Input length */
+ opus_int shapingLPCOrder, /* I Noise shaping AR filter order */
+ opus_int predictLPCOrder /* I Prediction filter order */
);
void silk_NSQ(
- const silk_encoder_state *psEncC, /* I/O Encoder State */
- silk_nsq_state *NSQ, /* I/O NSQ state */
- SideInfoIndices *psIndices, /* I/O Quantization Indices */
- const opus_int16 x[], /* I prefiltered input signal */
- opus_int8 pulses[], /* O quantized qulse signal */
- const opus_int16 PredCoef_Q12[ 2 * MAX_LPC_ORDER ], /* I Short term prediction coefficients */
- const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ], /* I Long term prediction coefficients */
- const opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ], /* I */
- const opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ], /* I */
- const opus_int Tilt_Q14[ MAX_NB_SUBFR ], /* I Spectral tilt */
- const opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ], /* I */
- const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I */
- const opus_int Lambda_Q10, /* I */
- const opus_int LTP_scale_Q14 /* I LTP state scaling */
+ const silk_encoder_state *psEncC, /* I/O Encoder State */
+ silk_nsq_state *NSQ, /* I/O NSQ state */
+ SideInfoIndices *psIndices, /* I/O Quantization Indices */
+ const opus_int16 x[], /* I Prefiltered input signal */
+ opus_int8 pulses[], /* O Quantized pulse signal */
+ const opus_int16 PredCoef_Q12[ 2 * MAX_LPC_ORDER ], /* I Short term prediction coefs */
+ const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ], /* I Long term prediction coefs */
+ const opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ], /* I Noise shaping coefs */
+ const opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ], /* I Long term shaping coefs */
+ const opus_int Tilt_Q14[ MAX_NB_SUBFR ], /* I Spectral tilt */
+ const opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ], /* I Low frequency shaping coefs */
+ const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I Quantization step sizes */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lags */
+ const opus_int Lambda_Q10, /* I Rate/distortion tradeoff */
+ const opus_int LTP_scale_Q14 /* I LTP state scaling */
)
{
opus_int k, lag, start_idx, LSF_interpolation_flag;
@@ -159,36 +159,31 @@
/* Save quantized speech and noise shaping signals */
silk_memmove( NSQ->xq, &NSQ->xq[ psEncC->frame_length ], psEncC->ltp_mem_length * sizeof( opus_int16 ) );
silk_memmove( NSQ->sLTP_shp_Q10, &NSQ->sLTP_shp_Q10[ psEncC->frame_length ], psEncC->ltp_mem_length * sizeof( opus_int32 ) );
-
-#ifdef SAVE_ALL_INTERNAL_DATA
- DEBUG_STORE_DATA( xq.dat, &pxq[ -psEncC->frame_length ], psEncC->frame_length * sizeof( opus_int16 ) );
- DEBUG_STORE_DATA( q.dat, &pulses[ -psEncC->frame_length ], psEncC->frame_length * sizeof( opus_int8 ) );
-#endif
}
/***********************************/
/* silk_noise_shape_quantizer */
/***********************************/
static inline void silk_noise_shape_quantizer(
- silk_nsq_state *NSQ, /* I/O NSQ state */
- opus_int signalType, /* I Signal type */
- const opus_int32 x_sc_Q10[], /* I */
- opus_int8 pulses[], /* O */
- opus_int16 xq[], /* O */
- opus_int32 sLTP_Q16[], /* I/O LTP state */
- const opus_int16 a_Q12[], /* I Short term prediction coefs */
- const opus_int16 b_Q14[], /* I Long term prediction coefs */
- const opus_int16 AR_shp_Q13[], /* I Noise shaping AR coefs */
- opus_int lag, /* I Pitch lag */
- opus_int32 HarmShapeFIRPacked_Q14, /* I */
- opus_int Tilt_Q14, /* I Spectral tilt */
- opus_int32 LF_shp_Q14, /* I */
- opus_int32 Gain_Q16, /* I */
- opus_int Lambda_Q10, /* I */
- opus_int offset_Q10, /* I */
- opus_int length, /* I Input length */
- opus_int shapingLPCOrder, /* I Noise shaping AR filter order */
- opus_int predictLPCOrder /* I Prediction filter order */
+ silk_nsq_state *NSQ, /* I/O NSQ state */
+ opus_int signalType, /* I Signal type */
+ const opus_int32 x_sc_Q10[], /* I */
+ opus_int8 pulses[], /* O */
+ opus_int16 xq[], /* O */
+ opus_int32 sLTP_Q16[], /* I/O LTP state */
+ const opus_int16 a_Q12[], /* I Short term prediction coefs */
+ const opus_int16 b_Q14[], /* I Long term prediction coefs */
+ const opus_int16 AR_shp_Q13[], /* I Noise shaping AR coefs */
+ opus_int lag, /* I Pitch lag */
+ opus_int32 HarmShapeFIRPacked_Q14, /* I */
+ opus_int Tilt_Q14, /* I Spectral tilt */
+ opus_int32 LF_shp_Q14, /* I */
+ opus_int32 Gain_Q16, /* I */
+ opus_int Lambda_Q10, /* I */
+ opus_int offset_Q10, /* I */
+ opus_int length, /* I Input length */
+ opus_int shapingLPCOrder, /* I Noise shaping AR filter order */
+ opus_int predictLPCOrder /* I Prediction filter order */
)
{
opus_int i, j;
@@ -361,17 +356,17 @@
}
static inline void silk_nsq_scale_states(
- const silk_encoder_state *psEncC, /* I Encoder State */
- silk_nsq_state *NSQ, /* I/O NSQ state */
- const opus_int16 x[], /* I input in Q0 */
- opus_int32 x_sc_Q10[], /* O input scaled with 1/Gain */
- const opus_int16 sLTP[], /* I re-whitened LTP state in Q0 */
- opus_int32 sLTP_Q16[], /* O LTP state matching scaled input */
- opus_int subfr, /* I subframe number */
- const opus_int LTP_scale_Q14, /* I */
- const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
- const opus_int signal_type /* I Signal type */
+ const silk_encoder_state *psEncC, /* I Encoder State */
+ silk_nsq_state *NSQ, /* I/O NSQ state */
+ const opus_int16 x[], /* I input in Q0 */
+ opus_int32 x_sc_Q10[], /* O input scaled with 1/Gain */
+ const opus_int16 sLTP[], /* I re-whitened LTP state in Q0 */
+ opus_int32 sLTP_Q16[], /* O LTP state matching scaled input */
+ opus_int subfr, /* I subframe number */
+ const opus_int LTP_scale_Q14, /* I */
+ const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
+ const opus_int signal_type /* I Signal type */
)
{
opus_int i, lag;
diff --git a/silk/NSQ_del_dec.c b/silk/NSQ_del_dec.c
index b84f944..4917ddb 100644
--- a/silk/NSQ_del_dec.c
+++ b/silk/NSQ_del_dec.c
@@ -58,17 +58,17 @@
const silk_encoder_state *psEncC, /* I Encoder State */
silk_nsq_state *NSQ, /* I/O NSQ state */
NSQ_del_dec_struct psDelDec[], /* I/O Delayed decision states */
- const opus_int16 x[], /* I Input in Q0 */
- opus_int32 x_sc_Q10[], /* O Input scaled with 1/Gain in Q10 */
- const opus_int16 sLTP[], /* I Re-whitened LTP state in Q0 */
- opus_int32 sLTP_Q16[], /* O LTP state matching scaled input */
- opus_int subfr, /* I Subframe number */
- opus_int nStatesDelayedDecision, /* I Number of del dec states */
- const opus_int LTP_scale_Q14, /* I LTP state scaling */
- const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
- const opus_int signal_type, /* I Signal type */
- const opus_int decisionDelay /* I Decision delay */
+ const opus_int16 x[], /* I Input in Q0 */
+ opus_int32 x_sc_Q10[], /* O Input scaled with 1/Gain in Q10 */
+ const opus_int16 sLTP[], /* I Re-whitened LTP state in Q0 */
+ opus_int32 sLTP_Q16[], /* O LTP state matching scaled input */
+ opus_int subfr, /* I Subframe number */
+ opus_int nStatesDelayedDecision, /* I Number of del dec states */
+ const opus_int LTP_scale_Q14, /* I LTP state scaling */
+ const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
+ const opus_int signal_type, /* I Signal type */
+ const opus_int decisionDelay /* I Decision delay */
);
/******************************************/
@@ -77,48 +77,48 @@
static inline void silk_noise_shape_quantizer_del_dec(
silk_nsq_state *NSQ, /* I/O NSQ state */
NSQ_del_dec_struct psDelDec[], /* I/O Delayed decision states */
- opus_int signalType, /* I Signal type */
- const opus_int32 x_Q10[], /* I */
- opus_int8 pulses[], /* O */
- opus_int16 xq[], /* O */
- opus_int32 sLTP_Q16[], /* I/O LTP filter state */
- opus_int32 delayedGain_Q16[], /* I/O Gain delay buffer */
- const opus_int16 a_Q12[], /* I Short term prediction coefs */
- const opus_int16 b_Q14[], /* I Long term prediction coefs */
- const opus_int16 AR_shp_Q13[], /* I Noise shaping coefs */
- opus_int lag, /* I Pitch lag */
- opus_int32 HarmShapeFIRPacked_Q14, /* I */
- opus_int Tilt_Q14, /* I Spectral tilt */
- opus_int32 LF_shp_Q14, /* I */
- opus_int32 Gain_Q16, /* I */
- opus_int Lambda_Q10, /* I */
- opus_int offset_Q10, /* I */
- opus_int length, /* I Input length */
- opus_int subfr, /* I Subframe number */
- opus_int shapingLPCOrder, /* I Shaping LPC filter order */
- opus_int predictLPCOrder, /* I Prediction filter order */
- opus_int warping_Q16, /* I */
- opus_int nStatesDelayedDecision, /* I Number of states in decision tree */
- opus_int *smpl_buf_idx, /* I Index to newest samples in buffers */
- opus_int decisionDelay /* I */
+ opus_int signalType, /* I Signal type */
+ const opus_int32 x_Q10[], /* I */
+ opus_int8 pulses[], /* O */
+ opus_int16 xq[], /* O */
+ opus_int32 sLTP_Q16[], /* I/O LTP filter state */
+ opus_int32 delayedGain_Q16[], /* I/O Gain delay buffer */
+ const opus_int16 a_Q12[], /* I Short term prediction coefs */
+ const opus_int16 b_Q14[], /* I Long term prediction coefs */
+ const opus_int16 AR_shp_Q13[], /* I Noise shaping coefs */
+ opus_int lag, /* I Pitch lag */
+ opus_int32 HarmShapeFIRPacked_Q14, /* I */
+ opus_int Tilt_Q14, /* I Spectral tilt */
+ opus_int32 LF_shp_Q14, /* I */
+ opus_int32 Gain_Q16, /* I */
+ opus_int Lambda_Q10, /* I */
+ opus_int offset_Q10, /* I */
+ opus_int length, /* I Input length */
+ opus_int subfr, /* I Subframe number */
+ opus_int shapingLPCOrder, /* I Shaping LPC filter order */
+ opus_int predictLPCOrder, /* I Prediction filter order */
+ opus_int warping_Q16, /* I */
+ opus_int nStatesDelayedDecision, /* I Number of states in decision tree */
+ opus_int *smpl_buf_idx, /* I Index to newest samples in buffers */
+ opus_int decisionDelay /* I */
);
void silk_NSQ_del_dec(
- const silk_encoder_state *psEncC, /* I/O Encoder State */
- silk_nsq_state *NSQ, /* I/O NSQ state */
- SideInfoIndices *psIndices, /* I/O Quantization Indices */
- const opus_int16 x[], /* I Prefiltered input signal */
- opus_int8 pulses[], /* O Quantized pulse signal */
- const opus_int16 PredCoef_Q12[ 2 * MAX_LPC_ORDER ], /* I Prediction coefs */
- const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ], /* I LT prediction coefs */
- const opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ], /* I */
- const opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ], /* I */
- const opus_int Tilt_Q14[ MAX_NB_SUBFR ], /* I Spectral tilt */
- const opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ], /* I */
- const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I */
- const opus_int Lambda_Q10, /* I */
- const opus_int LTP_scale_Q14 /* I LTP state scaling */
+ const silk_encoder_state *psEncC, /* I/O Encoder State */
+ silk_nsq_state *NSQ, /* I/O NSQ state */
+ SideInfoIndices *psIndices, /* I/O Quantization Indices */
+ const opus_int16 x[], /* I Prefiltered input signal */
+ opus_int8 pulses[], /* O Quantized pulse signal */
+ const opus_int16 PredCoef_Q12[ 2 * MAX_LPC_ORDER ], /* I Short term prediction coefs */
+ const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ], /* I Long term prediction coefs */
+ const opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ], /* I Noise shaping coefs */
+ const opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ], /* I Long term shaping coefs */
+ const opus_int Tilt_Q14[ MAX_NB_SUBFR ], /* I Spectral tilt */
+ const opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ], /* I Low frequency shaping coefs */
+ const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I Quantization step sizes */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lags */
+ const opus_int Lambda_Q10, /* I Rate/distortion tradeoff */
+ const opus_int LTP_scale_Q14 /* I LTP state scaling */
)
{
opus_int i, k, lag, start_idx, LSF_interpolation_flag, Winner_ind, subfr;
@@ -285,43 +285,38 @@
/* Save quantized speech and noise shaping signals */
silk_memmove( NSQ->xq, &NSQ->xq[ psEncC->frame_length ], psEncC->ltp_mem_length * sizeof( opus_int16 ) );
silk_memmove( NSQ->sLTP_shp_Q10, &NSQ->sLTP_shp_Q10[ psEncC->frame_length ], psEncC->ltp_mem_length * sizeof( opus_int32 ) );
-
-#ifdef SAVE_ALL_INTERNAL_DATA
- DEBUG_STORE_DATA( xq.dat, &pxq[ -psEncC->frame_length ], psEncC->frame_length * sizeof( opus_int16 ) );
- DEBUG_STORE_DATA( q.dat, &pulses[ -psEncC->frame_length ], psEncC->frame_length * sizeof( opus_int8 ) );
-#endif
}
/******************************************/
/* Noise shape quantizer for one subframe */
/******************************************/
static inline void silk_noise_shape_quantizer_del_dec(
- silk_nsq_state *NSQ, /* I/O NSQ state */
+ silk_nsq_state *NSQ, /* I/O NSQ state */
NSQ_del_dec_struct psDelDec[], /* I/O Delayed decision states */
- opus_int signalType, /* I Signal type */
- const opus_int32 x_Q10[], /* I */
- opus_int8 pulses[], /* O */
- opus_int16 xq[], /* O */
- opus_int32 sLTP_Q16[], /* I/O LTP filter state */
- opus_int32 delayedGain_Q16[], /* I/O Gain delay buffer */
- const opus_int16 a_Q12[], /* I Short term prediction coefs */
- const opus_int16 b_Q14[], /* I Long term prediction coefs */
- const opus_int16 AR_shp_Q13[], /* I Noise shaping coefs */
- opus_int lag, /* I Pitch lag */
- opus_int32 HarmShapeFIRPacked_Q14, /* I */
- opus_int Tilt_Q14, /* I Spectral tilt */
- opus_int32 LF_shp_Q14, /* I */
- opus_int32 Gain_Q16, /* I */
- opus_int Lambda_Q10, /* I */
- opus_int offset_Q10, /* I */
- opus_int length, /* I Input length */
- opus_int subfr, /* I Subframe number */
- opus_int shapingLPCOrder, /* I Shaping LPC filter order */
- opus_int predictLPCOrder, /* I Prediction filter order */
- opus_int warping_Q16, /* I */
- opus_int nStatesDelayedDecision, /* I Number of states in decision tree */
- opus_int *smpl_buf_idx, /* I Index to newest samples in buffers */
- opus_int decisionDelay /* I */
+ opus_int signalType, /* I Signal type */
+ const opus_int32 x_Q10[], /* I */
+ opus_int8 pulses[], /* O */
+ opus_int16 xq[], /* O */
+ opus_int32 sLTP_Q16[], /* I/O LTP filter state */
+ opus_int32 delayedGain_Q16[], /* I/O Gain delay buffer */
+ const opus_int16 a_Q12[], /* I Short term prediction coefs */
+ const opus_int16 b_Q14[], /* I Long term prediction coefs */
+ const opus_int16 AR_shp_Q13[], /* I Noise shaping coefs */
+ opus_int lag, /* I Pitch lag */
+ opus_int32 HarmShapeFIRPacked_Q14, /* I */
+ opus_int Tilt_Q14, /* I Spectral tilt */
+ opus_int32 LF_shp_Q14, /* I */
+ opus_int32 Gain_Q16, /* I */
+ opus_int Lambda_Q10, /* I */
+ opus_int offset_Q10, /* I */
+ opus_int length, /* I Input length */
+ opus_int subfr, /* I Subframe number */
+ opus_int shapingLPCOrder, /* I Shaping LPC filter order */
+ opus_int predictLPCOrder, /* I Prediction filter order */
+ opus_int warping_Q16, /* I */
+ opus_int nStatesDelayedDecision, /* I Number of states in decision tree */
+ opus_int *smpl_buf_idx, /* I Index to newest samples in buffers */
+ opus_int decisionDelay /* I */
)
{
opus_int i, j, k, Winner_ind, RDmin_ind, RDmax_ind, last_smple_idx;
@@ -605,17 +600,17 @@
const silk_encoder_state *psEncC, /* I Encoder State */
silk_nsq_state *NSQ, /* I/O NSQ state */
NSQ_del_dec_struct psDelDec[], /* I/O Delayed decision states */
- const opus_int16 x[], /* I Input in Q0 */
- opus_int32 x_sc_Q10[], /* O Input scaled with 1/Gain in Q10 */
- const opus_int16 sLTP[], /* I Re-whitened LTP state in Q0 */
- opus_int32 sLTP_Q16[], /* O LTP state matching scaled input */
- opus_int subfr, /* I Subframe number */
- opus_int nStatesDelayedDecision, /* I Number of del dec states */
- const opus_int LTP_scale_Q14, /* I LTP state scaling */
- const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
- const opus_int signal_type, /* I Signal type */
- const opus_int decisionDelay /* I Decision delay */
+ const opus_int16 x[], /* I Input in Q0 */
+ opus_int32 x_sc_Q10[], /* O Input scaled with 1/Gain in Q10 */
+ const opus_int16 sLTP[], /* I Re-whitened LTP state in Q0 */
+ opus_int32 sLTP_Q16[], /* O LTP state matching scaled input */
+ opus_int subfr, /* I Subframe number */
+ opus_int nStatesDelayedDecision, /* I Number of del dec states */
+ const opus_int LTP_scale_Q14, /* I LTP state scaling */
+ const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag */
+ const opus_int signal_type, /* I Signal type */
+ const opus_int decisionDelay /* I Decision delay */
)
{
opus_int i, k, lag;
diff --git a/silk/PLC.c b/silk/PLC.c
index 7624a91..e2ad20a 100644
--- a/silk/PLC.c
+++ b/silk/PLC.c
@@ -38,29 +38,29 @@
static const opus_int16 PLC_RAND_ATTENUATE_UV_Q15[NB_ATT] = { 32440, 29491 }; /* 0.99, 0.9 */
static inline void silk_PLC_update(
- silk_decoder_state *psDec, /* I/O Decoder state */
- silk_decoder_control *psDecCtrl /* I/O Decoder control */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl /* I/O Decoder control */
);
static inline void silk_PLC_conceal(
- silk_decoder_state *psDec, /* I/O Decoder state */
- silk_decoder_control *psDecCtrl, /* I/O Decoder control */
- opus_int16 signal[] /* O LPC residual signal */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl, /* I/O Decoder control */
+ opus_int16 signal[] /* O LPC residual signal */
);
void silk_PLC_Reset(
- silk_decoder_state *psDec /* I/O Decoder state */
+ silk_decoder_state *psDec /* I/O Decoder state */
)
{
psDec->sPLC.pitchL_Q8 = silk_RSHIFT( psDec->frame_length, 1 );
}
void silk_PLC(
- silk_decoder_state *psDec, /* I Decoder state */
- silk_decoder_control *psDecCtrl, /* I Decoder control */
- opus_int16 frame[], /* O Concealed signal */
- opus_int lost /* I Loss flag */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl, /* I/O Decoder control */
+ opus_int16 frame[], /* I/O signal */
+ opus_int lost /* I Loss flag */
)
{
/* PLC control function */
@@ -88,8 +88,8 @@
/* Update state of PLC */
/**************************************************/
static inline void silk_PLC_update(
- silk_decoder_state *psDec, /* (I/O) Decoder state */
- silk_decoder_control *psDecCtrl /* (I/O) Decoder control */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl /* I/O Decoder control */
)
{
opus_int32 LTP_Gain_Q14, temp_LTP_Gain_Q14;
@@ -104,7 +104,7 @@
if( psDec->indices.signalType == TYPE_VOICED ) {
/* Find the parameters for the last subframe which contains a pitch pulse */
for( j = 0; j * psDec->subfr_length < psDecCtrl->pitchL[ psDec->nb_subfr - 1 ]; j++ ) {
- if( j == psDec->nb_subfr ){
+ if( j == psDec->nb_subfr ) {
break;
}
temp_LTP_Gain_Q14 = 0;
@@ -160,9 +160,9 @@
}
static inline void silk_PLC_conceal(
- silk_decoder_state *psDec, /* I/O Decoder state */
- silk_decoder_control *psDecCtrl, /* I/O Decoder control */
- opus_int16 frame[] /* O concealed signal */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl, /* I/O Decoder control */
+ opus_int16 frame[] /* O LPC residual signal */
)
{
opus_int i, j, k;
@@ -344,9 +344,9 @@
/* Glues concealed frames with new good recieved frames */
void silk_PLC_glue_frames(
- silk_decoder_state *psDec, /* I/O decoder state */
- opus_int16 frame[], /* I/O signal */
- opus_int length /* I length of residual */
+ silk_decoder_state *psDec, /* I/O decoder state */
+ opus_int16 frame[], /* I/O signal */
+ opus_int length /* I length of signal */
)
{
opus_int i, energy_shift;
diff --git a/silk/PLC.h b/silk/PLC.h
index 4d985a6..c1f1e7e 100644
--- a/silk/PLC.h
+++ b/silk/PLC.h
@@ -31,32 +31,32 @@
#include "main.h"
#define BWE_COEF 0.99
-#define V_PITCH_GAIN_START_MIN_Q14 11469 /* 0.7 in Q14 */
-#define V_PITCH_GAIN_START_MAX_Q14 15565 /* 0.95 in Q14 */
+#define V_PITCH_GAIN_START_MIN_Q14 11469 /* 0.7 in Q14 */
+#define V_PITCH_GAIN_START_MAX_Q14 15565 /* 0.95 in Q14 */
#define MAX_PITCH_LAG_MS 18
#define SA_THRES_Q8 50
#define USE_SINGLE_TAP 1
#define RAND_BUF_SIZE 128
-#define RAND_BUF_MASK (RAND_BUF_SIZE - 1)
-#define LOG2_INV_LPC_GAIN_HIGH_THRES 3 /* 2^3 = 8 dB LPC gain */
-#define LOG2_INV_LPC_GAIN_LOW_THRES 8 /* 2^8 = 24 dB LPC gain */
-#define PITCH_DRIFT_FAC_Q16 655 /* 0.01 in Q16 */
+#define RAND_BUF_MASK ( RAND_BUF_SIZE - 1 )
+#define LOG2_INV_LPC_GAIN_HIGH_THRES 3 /* 2^3 = 8 dB LPC gain */
+#define LOG2_INV_LPC_GAIN_LOW_THRES 8 /* 2^8 = 24 dB LPC gain */
+#define PITCH_DRIFT_FAC_Q16 655 /* 0.01 in Q16 */
void silk_PLC_Reset(
- silk_decoder_state *psDec /* I/O Decoder state */
+ silk_decoder_state *psDec /* I/O Decoder state */
);
void silk_PLC(
- silk_decoder_state *psDec, /* I/O Decoder state */
- silk_decoder_control *psDecCtrl, /* I/O Decoder control */
- opus_int16 signal[], /* I/O signal */
- opus_int lost /* I Loss flag */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl, /* I/O Decoder control */
+ opus_int16 frame[], /* I/O signal */
+ opus_int lost /* I Loss flag */
);
void silk_PLC_glue_frames(
- silk_decoder_state *psDec, /* I/O decoder state */
- opus_int16 signal[], /* I/O signal */
- opus_int length /* I length of signal */
+ silk_decoder_state *psDec, /* I/O decoder state */
+ opus_int16 frame[], /* I/O signal */
+ opus_int length /* I length of signal */
);
#endif
diff --git a/silk/SigProc_FIX.h b/silk/SigProc_FIX.h
index d24eac6..a80ac97 100644
--- a/silk/SigProc_FIX.h
+++ b/silk/SigProc_FIX.h
@@ -35,10 +35,10 @@
/*#define silk_MACRO_COUNT */ /* Used to enable WMOPS counting */
-#define SILK_MAX_ORDER_LPC 16 /* max order of the LPC analysis in schur() and k2a() */
+#define SILK_MAX_ORDER_LPC 16 /* max order of the LPC analysis in schur() and k2a() */
-#include <stdlib.h> /* for abs() */
-#include <string.h> /* for memset(), memcpy(), memmove() */
+#include <stdlib.h> /* for abs() */
+#include <string.h> /* for memset(), memcpy(), memmove() */
#include "typedef.h"
#include "resampler_structs.h"
#include "macros.h"
@@ -52,39 +52,39 @@
* Initialize/reset the resampler state for a given pair of input/output sampling rates
*/
opus_int silk_resampler_init(
- silk_resampler_state_struct *S, /* I/O: Resampler state */
- opus_int32 Fs_Hz_in, /* I: Input sampling rate (Hz) */
- opus_int32 Fs_Hz_out /* I: Output sampling rate (Hz) */
+ silk_resampler_state_struct *S, /* I/O Resampler state */
+ opus_int32 Fs_Hz_in, /* I Input sampling rate (Hz) */
+ opus_int32 Fs_Hz_out /* I Output sampling rate (Hz) */
);
/*!
* Resampler: convert from one sampling rate to another
*/
opus_int silk_resampler(
- silk_resampler_state_struct *S, /* I/O: Resampler state */
- opus_int16 out[], /* O: Output signal */
- const opus_int16 in[], /* I: Input signal */
- opus_int32 inLen /* I: Number of input samples */
+ silk_resampler_state_struct *S, /* I/O Resampler state */
+ opus_int16 out[], /* O Output signal */
+ const opus_int16 in[], /* I Input signal */
+ opus_int32 inLen /* I Number of input samples */
);
/*!
* Downsample 2x, mediocre quality
*/
void silk_resampler_down2(
- opus_int32 *S, /* I/O: State vector [ 2 ] */
- opus_int16 *out, /* O: Output signal [ len ] */
- const opus_int16 *in, /* I: Input signal [ floor(len/2) ] */
- opus_int32 inLen /* I: Number of input samples */
+ opus_int32 *S, /* I/O State vector [ 2 ] */
+ opus_int16 *out, /* O Output signal [ len ] */
+ const opus_int16 *in, /* I Input signal [ floor(len/2) ] */
+ opus_int32 inLen /* I Number of input samples */
);
/*!
* Downsample by a factor 2/3, low quality
*/
void silk_resampler_down2_3(
- opus_int32 *S, /* I/O: State vector [ 6 ] */
- opus_int16 *out, /* O: Output signal [ floor(2*inLen/3) ] */
- const opus_int16 *in, /* I: Input signal [ inLen ] */
- opus_int32 inLen /* I: Number of input samples */
+ opus_int32 *S, /* I/O State vector [ 6 ] */
+ opus_int16 *out, /* O Output signal [ floor(2*inLen/3) ] */
+ const opus_int16 *in, /* I Input signal [ inLen ] */
+ opus_int32 inLen /* I Number of input samples */
);
/*!
@@ -93,268 +93,269 @@
* can handle (slowly) varying coefficients
*/
void silk_biquad_alt(
- const opus_int16 *in, /* I: input signal */
- const opus_int32 *B_Q28, /* I: MA coefficients [3] */
- const opus_int32 *A_Q28, /* I: AR coefficients [2] */
- opus_int32 *S, /* I/O: State vector [2] */
- opus_int16 *out, /* O: output signal */
- const opus_int32 len, /* I: signal length (must be even) */
- opus_int stride /* I: Operate on interleaved signal if > 1 */
+ const opus_int16 *in, /* I input signal */
+ const opus_int32 *B_Q28, /* I MA coefficients [3] */
+ const opus_int32 *A_Q28, /* I AR coefficients [2] */
+ opus_int32 *S, /* I/O State vector [2] */
+ opus_int16 *out, /* O output signal */
+ const opus_int32 len, /* I signal length (must be even) */
+ opus_int stride /* I Operate on interleaved signal if > 1 */
);
/* Variable order MA prediction error filter. */
void silk_LPC_analysis_filter(
- opus_int16 *out, /* O: Output signal */
- const opus_int16 *in, /* I: Input signal */
- const opus_int16 *B, /* I: MA prediction coefficients, Q12 [order] */
- const opus_int32 len, /* I: Signal length */
- const opus_int32 Order /* I: Filter order */
+ opus_int16 *out, /* O Output signal */
+ const opus_int16 *in, /* I Input signal */
+ const opus_int16 *B, /* I MA prediction coefficients, Q12 [order] */
+ const opus_int32 len, /* I Signal length */
+ const opus_int32 d /* I Filter order */
);
/* Chirp (bandwidth expand) LP AR filter */
void silk_bwexpander(
- opus_int16 *ar, /* I/O AR filter to be expanded (without leading 1) */
- const opus_int d, /* I Length of ar */
- opus_int32 chirp_Q16 /* I Chirp factor (typically in the range 0 to 1) */
+ opus_int16 *ar, /* I/O AR filter to be expanded (without leading 1) */
+ const opus_int d, /* I Length of ar */
+ opus_int32 chirp_Q16 /* I Chirp factor (typically in the range 0 to 1) */
);
/* Chirp (bandwidth expand) LP AR filter */
void silk_bwexpander_32(
- opus_int32 *ar, /* I/O AR filter to be expanded (without leading 1) */
- const opus_int d, /* I Length of ar */
- opus_int32 chirp_Q16 /* I Chirp factor in Q16 */
+ opus_int32 *ar, /* I/O AR filter to be expanded (without leading 1) */
+ const opus_int d, /* I Length of ar */
+ opus_int32 chirp_Q16 /* I Chirp factor in Q16 */
);
/* Compute inverse of LPC prediction gain, and */
/* test if LPC coefficients are stable (all poles within unit circle) */
-opus_int silk_LPC_inverse_pred_gain( /* O: Returns 1 if unstable, otherwise 0 */
- opus_int32 *invGain_Q30, /* O: Inverse prediction gain, Q30 energy domain */
- const opus_int16 *A_Q12, /* I: Prediction coefficients, Q12 [order] */
- const opus_int order /* I: Prediction order */
+opus_int silk_LPC_inverse_pred_gain( /* O Returns 1 if unstable, otherwise 0 */
+ opus_int32 *invGain_Q30, /* O Inverse prediction gain, Q30 energy domain */
+ const opus_int16 *A_Q12, /* I Prediction coefficients, Q12 [order] */
+ const opus_int order /* I Prediction order */
);
-opus_int silk_LPC_inverse_pred_gain_Q24( /* O: Returns 1 if unstable, otherwise 0 */
- opus_int32 *invGain_Q30, /* O: Inverse prediction gain, Q30 energy domain */
- const opus_int32 *A_Q24, /* I: Prediction coefficients, Q24 [order] */
- const opus_int order /* I: Prediction order */
+opus_int silk_LPC_inverse_pred_gain_Q24( /* O Returns 1 if unstable, otherwise 0 */
+ opus_int32 *invGain_Q30, /* O Inverse prediction gain, Q30 energy domain */
+ const opus_int32 *A_Q24, /* I Prediction coefficients, Q24 [order] */
+ const opus_int order /* I Prediction order */
);
-/* split signal in two decimated bands using first-order allpass filters */
+/* Split signal in two decimated bands using first-order allpass filters */
void silk_ana_filt_bank_1(
- const opus_int16 *in, /* I: Input signal [N] */
- opus_int32 *S, /* I/O: State vector [2] */
- opus_int16 *outL, /* O: Low band [N/2] */
- opus_int16 *outH, /* O: High band [N/2] */
- const opus_int32 N /* I: Number of input samples */
+ const opus_int16 *in, /* I Input signal [N] */
+ opus_int32 *S, /* I/O State vector [2] */
+ opus_int16 *outL, /* O Low band [N/2] */
+ opus_int16 *outH, /* O High band [N/2] */
+ const opus_int32 N /* I Number of input samples */
);
/********************************************************************/
/* SCALAR FUNCTIONS */
/********************************************************************/
-/* approximation of 128 * log2() (exact inverse of approx 2^() below) */
-/* convert input to a log scale */
-opus_int32 silk_lin2log(const opus_int32 inLin); /* I: input in linear scale */
+/* Approximation of 128 * log2() (exact inverse of approx 2^() below) */
+/* Convert input to a log scale */
+opus_int32 silk_lin2log(
+ const opus_int32 inLin /* I input in linear scale */
+);
/* Approximation of a sigmoid function */
-opus_int silk_sigm_Q15(opus_int in_Q5);
+opus_int silk_sigm_Q15(
+ opus_int in_Q5 /* I */
+);
-/* approximation of 2^() (exact inverse of approx log2() above) */
-/* convert input to a linear scale */
-opus_int32 silk_log2lin(const opus_int32 inLog_Q7); /* I: input on log scale */
+/* Approximation of 2^() (exact inverse of approx log2() above) */
+/* Convert input to a linear scale */
+opus_int32 silk_log2lin(
+ const opus_int32 inLog_Q7 /* I input on log scale */
+);
/* Function that returns the maximum absolut value of the input vector */
-opus_int16 silk_int16_array_maxabs( /* O Maximum absolute value, max: 2^15-1 */
- const opus_int16 *vec, /* I Input vector [len] */
- const opus_int32 len /* I Length of input vector */
+opus_int16 silk_int16_array_maxabs( /* O Maximum absolute value, max: 2^15-1 */
+ const opus_int16 *vec, /* I Input vector [len] */
+ const opus_int32 len /* I Length of input vector */
);
/* Compute number of bits to right shift the sum of squares of a vector */
/* of int16s to make it fit in an int32 */
void silk_sum_sqr_shift(
- opus_int32 *energy, /* O Energy of x, after shifting to the right */
- opus_int *shift, /* O Number of bits right shift applied to energy */
- const opus_int16 *x, /* I Input vector */
- opus_int len /* I Length of input vector */
+ opus_int32 *energy, /* O Energy of x, after shifting to the right */
+ opus_int *shift, /* O Number of bits right shift applied to energy */
+ const opus_int16 *x, /* I Input vector */
+ opus_int len /* I Length of input vector */
);
/* Calculates the reflection coefficients from the correlation sequence */
/* Faster than schur64(), but much less accurate. */
/* uses SMLAWB(), requiring armv5E and higher. */
-opus_int32 silk_schur( /* O: Returns residual energy */
- opus_int16 *rc_Q15, /* O: reflection coefficients [order] Q15 */
- const opus_int32 *c, /* I: correlations [order+1] */
- const opus_int32 order /* I: prediction order */
+opus_int32 silk_schur( /* O Returns residual energy */
+ opus_int16 *rc_Q15, /* O reflection coefficients [order] Q15 */
+ const opus_int32 *c, /* I correlations [order+1] */
+ const opus_int32 order /* I prediction order */
);
/* Calculates the reflection coefficients from the correlation sequence */
/* Slower than schur(), but more accurate. */
/* Uses SMULL(), available on armv4 */
-opus_int32 silk_schur64( /* O: returns residual energy */
- opus_int32 rc_Q16[], /* O: Reflection coefficients [order] Q16 */
- const opus_int32 c[], /* I: Correlations [order+1] */
- opus_int32 order /* I: Prediction order */
+opus_int32 silk_schur64( /* O returns residual energy */
+ opus_int32 rc_Q16[], /* O Reflection coefficients [order] Q16 */
+ const opus_int32 c[], /* I Correlations [order+1] */
+ opus_int32 order /* I Prediction order */
);
/* Step up function, converts reflection coefficients to prediction coefficients */
void silk_k2a(
- opus_int32 *A_Q24, /* O: Prediction coefficients [order] Q24 */
- const opus_int16 *rc_Q15, /* I: Reflection coefficients [order] Q15 */
- const opus_int32 order /* I: Prediction order */
+ opus_int32 *A_Q24, /* O Prediction coefficients [order] Q24 */
+ const opus_int16 *rc_Q15, /* I Reflection coefficients [order] Q15 */
+ const opus_int32 order /* I Prediction order */
);
/* Step up function, converts reflection coefficients to prediction coefficients */
void silk_k2a_Q16(
- opus_int32 *A_Q24, /* O: Prediction coefficients [order] Q24 */
- const opus_int32 *rc_Q16, /* I: Reflection coefficients [order] Q16 */
- const opus_int32 order /* I: Prediction order */
+ opus_int32 *A_Q24, /* O Prediction coefficients [order] Q24 */
+ const opus_int32 *rc_Q16, /* I Reflection coefficients [order] Q16 */
+ const opus_int32 order /* I Prediction order */
);
-/* Apply sine window to signal vector. */
-/* Window types: */
-/* 1 -> sine window from 0 to pi/2 */
-/* 2 -> sine window from pi/2 to pi */
-/* every other sample of window is linearly interpolated, for speed */
+/* Apply sine window to signal vector. */
+/* Window types: */
+/* 1 -> sine window from 0 to pi/2 */
+/* 2 -> sine window from pi/2 to pi */
+/* every other sample of window is linearly interpolated, for speed */
void silk_apply_sine_window(
- opus_int16 px_win[], /* O Pointer to windowed signal */
- const opus_int16 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 */
+ opus_int16 px_win[], /* O Pointer to windowed signal */
+ const opus_int16 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 */
);
/* Compute autocorrelation */
void silk_autocorr(
- opus_int32 *results, /* O Result (length correlationCount) */
- opus_int *scale, /* O Scaling of the correlation vector */
- const opus_int16 *inputData, /* I Input data to correlate */
- const opus_int inputDataSize, /* I Length of input */
- const opus_int correlationCount /* I Number of correlation taps to compute */
+ opus_int32 *results, /* O Result (length correlationCount) */
+ opus_int *scale, /* O Scaling of the correlation vector */
+ const opus_int16 *inputData, /* I Input data to correlate */
+ const opus_int inputDataSize, /* I Length of input */
+ const opus_int correlationCount /* I Number of correlation taps to compute */
);
-/* Pitch estimator */
-#define SILK_PE_MIN_COMPLEX 0
-#define SILK_PE_MID_COMPLEX 1
-#define SILK_PE_MAX_COMPLEX 2
-
void silk_decode_pitch(
- opus_int16 lagIndex, /* I */
- opus_int8 contourIndex, /* O */
- opus_int pitch_lags[], /* O 4 pitch values */
- const opus_int Fs_kHz, /* I sampling frequency (kHz) */
- const opus_int nb_subfr /* I number of sub frames */
+ opus_int16 lagIndex, /* I */
+ opus_int8 contourIndex, /* O */
+ opus_int pitch_lags[], /* O 4 pitch values */
+ const opus_int Fs_kHz, /* I sampling frequency (kHz) */
+ const opus_int nb_subfr /* I number of sub frames */
);
-opus_int silk_pitch_analysis_core( /* O Voicing estimate: 0 voiced, 1 unvoiced */
- const opus_int16 *signal, /* I Signal of length PE_FRAME_LENGTH_MS*Fs_kHz */
- opus_int *pitch_out, /* O 4 pitch lag values */
- opus_int16 *lagIndex, /* O Lag Index */
- opus_int8 *contourIndex, /* O Pitch contour Index */
- opus_int *LTPCorr_Q15, /* I/O Normalized correlation; input: value from previous frame */
- opus_int prevLag, /* I Last lag of previous frame; set to zero is unvoiced */
- const opus_int32 search_thres1_Q16, /* I First stage threshold for lag candidates 0 - 1 */
- const opus_int search_thres2_Q15, /* I Final threshold for lag candidates 0 - 1 */
- const opus_int Fs_kHz, /* I Sample frequency (kHz) */
- const opus_int complexity, /* I Complexity setting, 0-2, where 2 is highest */
- const opus_int nb_subfr /* I number of 5 ms subframes */
+opus_int silk_pitch_analysis_core( /* O Voicing estimate: 0 voiced, 1 unvoiced */
+ const opus_int16 *frame, /* I Signal of length PE_FRAME_LENGTH_MS*Fs_kHz */
+ opus_int *pitch_out, /* O 4 pitch lag values */
+ opus_int16 *lagIndex, /* O Lag Index */
+ opus_int8 *contourIndex, /* O Pitch contour Index */
+ opus_int *LTPCorr_Q15, /* I/O Normalized correlation; input: value from previous frame */
+ opus_int prevLag, /* I Last lag of previous frame; set to zero is unvoiced */
+ const opus_int32 search_thres1_Q16, /* I First stage threshold for lag candidates 0 - 1 */
+ const opus_int search_thres2_Q15, /* I Final threshold for lag candidates 0 - 1 */
+ const opus_int Fs_kHz, /* I Sample frequency (kHz) */
+ const opus_int complexity, /* I Complexity setting, 0-2, where 2 is highest */
+ const opus_int nb_subfr /* I number of 5 ms subframes */
);
/* Compute Normalized Line Spectral Frequencies (NLSFs) from whitening filter coefficients */
/* If not all roots are found, the a_Q16 coefficients are bandwidth expanded until convergence. */
void silk_A2NLSF(
- opus_int16 *NLSF, /* O Normalized Line Spectral Frequencies, Q15 (0 - (2^15-1)), [d] */
- opus_int32 *a_Q16, /* I/O Monic whitening filter coefficients in Q16 [d] */
- const opus_int d /* I Filter order (must be even) */
+ opus_int16 *NLSF, /* O Normalized Line Spectral Frequencies in Q15 (0..2^15-1) [d] */
+ opus_int32 *a_Q16, /* I/O Monic whitening filter coefficients in Q16 [d] */
+ const opus_int d /* I Filter order (must be even) */
);
/* compute whitening filter coefficients from normalized line spectral frequencies */
void silk_NLSF2A(
- opus_int16 *a_Q12, /* O monic whitening filter coefficients in Q12, [ d ] */
- const opus_int16 *NLSF, /* I normalized line spectral frequencies in Q15, [ d ] */
- const opus_int d /* I filter order (should be even) */
+ opus_int16 *a_Q12, /* O monic whitening filter coefficients in Q12, [ d ] */
+ const opus_int16 *NLSF, /* I normalized line spectral frequencies in Q15, [ d ] */
+ const opus_int d /* I filter order (should be even) */
);
void silk_insertion_sort_increasing(
- opus_int32 *a, /* I/O Unsorted / Sorted vector */
- opus_int *idx, /* O: Index vector for the sorted elements */
- const opus_int L, /* I: Vector length */
- const opus_int K /* I: Number of correctly sorted positions */
+ opus_int32 *a, /* I/O Unsorted / Sorted vector */
+ opus_int *idx, /* O Index vector for the sorted elements */
+ const opus_int L, /* I Vector length */
+ const opus_int K /* I Number of correctly sorted positions */
);
void silk_insertion_sort_decreasing_int16(
- opus_int16 *a, /* I/O: Unsorted / Sorted vector */
- opus_int *idx, /* O: Index vector for the sorted elements */
- const opus_int L, /* I: Vector length */
- const opus_int K /* I: Number of correctly sorted positions */
+ opus_int16 *a, /* I/O Unsorted / Sorted vector */
+ opus_int *idx, /* O Index vector for the sorted elements */
+ const opus_int L, /* I Vector length */
+ const opus_int K /* I Number of correctly sorted positions */
);
void silk_insertion_sort_increasing_all_values_int16(
- opus_int16 *a, /* I/O: Unsorted / Sorted vector */
- const opus_int L /* I: Vector length */
+ opus_int16 *a, /* I/O Unsorted / Sorted vector */
+ const opus_int L /* I Vector length */
);
/* NLSF stabilizer, for a single input data vector */
void silk_NLSF_stabilize(
- opus_int16 *NLSF_Q15, /* I/O: Unstable/stabilized normalized LSF vector in Q15 [L] */
- const opus_int16 *NDeltaMin_Q15, /* I: Normalized delta min vector in Q15, NDeltaMin_Q15[L] must be >= 1 [L+1] */
- const opus_int L /* I: Number of NLSF parameters in the input vector */
+ opus_int16 *NLSF_Q15, /* I/O Unstable/stabilized normalized LSF vector in Q15 [L] */
+ const opus_int16 *NDeltaMin_Q15, /* I Min distance vector, NDeltaMin_Q15[L] must be >= 1 [L+1] */
+ const opus_int L /* I Number of NLSF parameters in the input vector */
);
/* Laroia low complexity NLSF weights */
void silk_NLSF_VQ_weights_laroia(
- opus_int16 *pNLSFW_Q_OUT, /* O: Pointer to input vector weights [D x 1] */
- const opus_int16 *pNLSF_Q15, /* I: Pointer to input vector [D x 1] */
- const opus_int D /* I: Input vector dimension (even) */
+ opus_int16 *pNLSFW_Q_OUT, /* O Pointer to input vector weights [D] */
+ const opus_int16 *pNLSF_Q15, /* I Pointer to input vector [D] */
+ const opus_int D /* I Input vector dimension (even) */
);
/* Compute reflection coefficients from input signal */
void silk_burg_modified(
- opus_int32 *res_nrg, /* O residual energy */
- opus_int *res_nrgQ, /* O residual energy Q value */
- opus_int32 A_Q16[], /* O prediction coefficients (length order) */
- const opus_int16 x[], /* I input signal, length: nb_subfr * ( D + subfr_length ) */
- const opus_int subfr_length, /* I input signal subframe length (including D preceeding samples) */
- const opus_int nb_subfr, /* I number of subframes stacked in x */
- const opus_int32 WhiteNoiseFrac_Q32, /* I fraction added to zero-lag autocorrelation */
- const opus_int D /* I order */
+ opus_int32 *res_nrg, /* O Residual energy */
+ opus_int *res_nrg_Q, /* O Residual energy Q value */
+ opus_int32 A_Q16[], /* O Prediction coefficients (length order) */
+ const opus_int16 x[], /* I Input signal, length: nb_subfr * ( D + subfr_length ) */
+ const opus_int subfr_length, /* I Input signal subframe length (incl. D preceeding samples) */
+ const opus_int nb_subfr, /* I Number of subframes stacked in x */
+ const opus_int32 WhiteNoiseFrac_Q32, /* I Fraction added to zero-lag autocorrelation */
+ const opus_int D /* I Order */
);
/* Copy and multiply a vector by a constant */
void silk_scale_copy_vector16(
- opus_int16 *data_out,
- const opus_int16 *data_in,
- opus_int32 gain_Q16, /* I: gain in Q16 */
- const opus_int dataSize /* I: length */
+ opus_int16 *data_out,
+ const opus_int16 *data_in,
+ opus_int32 gain_Q16, /* I Gain in Q16 */
+ const opus_int dataSize /* I Length */
);
/* Some for the LTP related function requires Q26 to work.*/
void silk_scale_vector32_Q26_lshift_18(
- opus_int32 *data1, /* I/O: Q0/Q18 */
- opus_int32 gain_Q26, /* I: Q26 */
- opus_int dataSize /* I: length */
+ opus_int32 *data1, /* I/O Q0/Q18 */
+ opus_int32 gain_Q26, /* I Q26 */
+ opus_int dataSize /* I length */
);
/********************************************************************/
-/* INLINE ARM MATH */
+/* INLINE ARM MATH */
/********************************************************************/
-/* return sum(inVec1[i]*inVec2[i]) */
+/* return sum( inVec1[i] * inVec2[i] ) */
opus_int32 silk_inner_prod_aligned(
- const opus_int16 *const inVec1, /* I input vector 1 */
- const opus_int16 *const inVec2, /* I input vector 2 */
- const opus_int len /* I vector lengths */
+ const opus_int16 *const inVec1, /* I input vector 1 */
+ const opus_int16 *const inVec2, /* I input vector 2 */
+ const opus_int len /* I vector lengths */
);
opus_int32 silk_inner_prod_aligned_scale(
- const opus_int16 *const inVec1, /* I input vector 1 */
- const opus_int16 *const inVec2, /* I input vector 2 */
- const opus_int scale, /* I number of bits to shift */
- const opus_int len /* I vector lengths */
+ const opus_int16 *const inVec1, /* I input vector 1 */
+ const opus_int16 *const inVec2, /* I input vector 2 */
+ const opus_int scale, /* I number of bits to shift */
+ const opus_int len /* I vector lengths */
);
opus_int64 silk_inner_prod16_aligned_64(
- const opus_int16 *inVec1, /* I input vector 1 */
- const opus_int16 *inVec2, /* I input vector 2 */
- const opus_int len /* I vector lengths */
+ const opus_int16 *inVec1, /* I input vector 1 */
+ const opus_int16 *inVec2, /* I input vector 2 */
+ const opus_int len /* I vector lengths */
);
/********************************************************************/
@@ -370,12 +371,13 @@
opus_uint32 x = (opus_uint32) a32;
opus_uint32 r = (opus_uint32) rot;
opus_uint32 m = (opus_uint32) -rot;
- if (rot==0)
- return a32;
- else if(rot < 0)
+ if( rot == 0 ) {
+ return a32;
+ } else if( rot < 0 ) {
return (opus_int32) ((x << m) | (x >> (32 - m)));
- else
+ } else {
return (opus_int32) ((x << (32 - r)) | (x >> r));
+ }
}
/* Allocate opus_int16 alligned to 4-byte memory address */
@@ -386,10 +388,11 @@
#endif
/* Useful Macros that can be adjusted to other platforms */
-#define silk_memcpy(a, b, c) memcpy((a), (b), (c)) /* Dest, Src, ByteCount */
-#define silk_memset(a, b, c) memset((a), (b), (c)) /* Dest, value, ByteCount */
-#define silk_memmove(a, b, c) memmove((a), (b), (c)) /* Dest, Src, ByteCount */
-/* fixed point macros */
+#define silk_memcpy(a, b, c) memcpy((a), (b), (c)) /* Dest, Src, ByteCount */
+#define silk_memset(a, b, c) memset((a), (b), (c)) /* Dest, value, ByteCount */
+#define silk_memmove(a, b, c) memmove((a), (b), (c)) /* Dest, Src, ByteCount */
+
+/* Fixed point macros */
/* (a32 * b32) output have to be 32bit int */
#define silk_MUL(a32, b32) ((a32) * (b32))
@@ -421,14 +424,9 @@
(just standard two's complement implementation-specific behaviour) */
#define silk_SUB32_ovflw(a, b) ((opus_int32)((opus_uint32)(a) - (opus_uint32)(b)))
-/* a32 + (opus_int32)((opus_int16)(b32)) * (opus_int32)((opus_int16)(c32)) output have to be 32bit int */
-#define silk_SMLABB_ovflw(a32, b32, c32) (silk_ADD32_ovflw((a32) , ((opus_int32)((opus_int16)(b32))) * (opus_int32)((opus_int16)(c32))))
-
-/* Multiply-accumulate macros that allow overflow in the addition (ie, no asserts in debug mode)*/
+/* Multiply-accumulate macros that allow overflow in the addition (ie, no asserts in debug mode) */
#define silk_MLA_ovflw(a32, b32, c32) silk_ADD32_ovflw((a32), (opus_uint32)(b32) * (opus_uint32)(c32))
-#ifndef silk_SMLABB_ovflw
-# define silk_SMLABB_ovflw(a32, b32, c32) silk_ADD32_ovflw((a32), (opus_int32)((opus_int16)(b32)) * (opus_int32)((opus_int16)(c32)))
-#endif
+#define silk_SMLABB_ovflw(a32, b32, c32) (silk_ADD32_ovflw((a32) , ((opus_int32)((opus_int16)(b32))) * (opus_int32)((opus_int16)(c32))))
#define silk_DIV32_16(a32, b16) ((opus_int32)((a32) / (b16)))
#define silk_DIV32(a32, b32) ((opus_int32)((a32) / (b32)))
@@ -442,12 +440,12 @@
#define silk_SUB32(a, b) ((a) - (b))
#define silk_SUB64(a, b) ((a) - (b))
-#define silk_SAT8(a) ((a) > silk_int8_MAX ? silk_int8_MAX : \
- ((a) < silk_int8_MIN ? silk_int8_MIN : (a)))
-#define silk_SAT16(a) ((a) > silk_int16_MAX ? silk_int16_MAX : \
- ((a) < silk_int16_MIN ? silk_int16_MIN : (a)))
-#define silk_SAT32(a) ((a) > silk_int32_MAX ? silk_int32_MAX : \
- ((a) < silk_int32_MIN ? silk_int32_MIN : (a)))
+#define silk_SAT8(a) ((a) > silk_int8_MAX ? silk_int8_MAX : \
+ ((a) < silk_int8_MIN ? silk_int8_MIN : (a)))
+#define silk_SAT16(a) ((a) > silk_int16_MAX ? silk_int16_MAX : \
+ ((a) < silk_int16_MIN ? silk_int16_MIN : (a)))
+#define silk_SAT32(a) ((a) > silk_int32_MAX ? silk_int32_MAX : \
+ ((a) < silk_int32_MIN ? silk_int32_MIN : (a)))
#define silk_CHECK_FIT8(a) (a)
#define silk_CHECK_FIT16(a) (a)
@@ -455,13 +453,13 @@
#define silk_ADD_SAT16(a, b) (opus_int16)silk_SAT16( silk_ADD32( (opus_int32)(a), (b) ) )
#define silk_ADD_SAT64(a, b) ((((a) + (b)) & 0x8000000000000000LL) == 0 ? \
- ((((a) & (b)) & 0x8000000000000000LL) != 0 ? silk_int64_MIN : (a)+(b)) : \
- ((((a) | (b)) & 0x8000000000000000LL) == 0 ? silk_int64_MAX : (a)+(b)) )
+ ((((a) & (b)) & 0x8000000000000000LL) != 0 ? silk_int64_MIN : (a)+(b)) : \
+ ((((a) | (b)) & 0x8000000000000000LL) == 0 ? silk_int64_MAX : (a)+(b)) )
#define silk_SUB_SAT16(a, b) (opus_int16)silk_SAT16( silk_SUB32( (opus_int32)(a), (b) ) )
-#define silk_SUB_SAT64(a, b) ((((a)-(b)) & 0x8000000000000000LL) == 0 ? \
- (( (a) & ((b)^0x8000000000000000LL) & 0x8000000000000000LL) ? silk_int64_MIN : (a)-(b)) : \
- ((((a)^0x8000000000000000LL) & (b) & 0x8000000000000000LL) ? silk_int64_MAX : (a)-(b)) )
+#define silk_SUB_SAT64(a, b) ((((a)-(b)) & 0x8000000000000000LL) == 0 ? \
+ (( (a) & ((b)^0x8000000000000000LL) & 0x8000000000000000LL) ? silk_int64_MIN : (a)-(b)) : \
+ ((((a)^0x8000000000000000LL) & (b) & 0x8000000000000000LL) ? silk_int64_MAX : (a)-(b)) )
/* Saturation for positive input values */
#define silk_POS_SAT32(a) ((a) > silk_int32_MAX ? silk_int32_MAX : (a))
@@ -472,51 +470,51 @@
#define silk_ADD_POS_SAT32(a, b) ((((a)+(b)) & 0x80000000) ? silk_int32_MAX : ((a)+(b)))
#define silk_ADD_POS_SAT64(a, b) ((((a)+(b)) & 0x8000000000000000LL) ? silk_int64_MAX : ((a)+(b)))
-#define silk_LSHIFT8(a, shift) ((opus_int8)((opus_uint8)(a)<<(shift))) /* shift >= 0, shift < 8 */
-#define silk_LSHIFT16(a, shift) ((opus_int16)((opus_uint16)(a)<<(shift))) /* shift >= 0, shift < 16 */
-#define silk_LSHIFT32(a, shift) ((opus_int32)((opus_uint32)(a)<<(shift))) /* shift >= 0, shift < 32 */
-#define silk_LSHIFT64(a, shift) ((opus_int64)((opus_uint64)(a)<<(shift))) /* shift >= 0, shift < 64 */
-#define silk_LSHIFT(a, shift) silk_LSHIFT32(a, shift) /* shift >= 0, shift < 32 */
+#define silk_LSHIFT8(a, shift) ((opus_int8)((opus_uint8)(a)<<(shift))) /* shift >= 0, shift < 8 */
+#define silk_LSHIFT16(a, shift) ((opus_int16)((opus_uint16)(a)<<(shift))) /* shift >= 0, shift < 16 */
+#define silk_LSHIFT32(a, shift) ((opus_int32)((opus_uint32)(a)<<(shift))) /* shift >= 0, shift < 32 */
+#define silk_LSHIFT64(a, shift) ((opus_int64)((opus_uint64)(a)<<(shift))) /* shift >= 0, shift < 64 */
+#define silk_LSHIFT(a, shift) silk_LSHIFT32(a, shift) /* shift >= 0, shift < 32 */
-#define silk_RSHIFT8(a, shift) ((a)>>(shift)) /* shift >= 0, shift < 8 */
-#define silk_RSHIFT16(a, shift) ((a)>>(shift)) /* shift >= 0, shift < 16 */
-#define silk_RSHIFT32(a, shift) ((a)>>(shift)) /* shift >= 0, shift < 32 */
-#define silk_RSHIFT64(a, shift) ((a)>>(shift)) /* shift >= 0, shift < 64 */
-#define silk_RSHIFT(a, shift) silk_RSHIFT32(a, shift) /* shift >= 0, shift < 32 */
+#define silk_RSHIFT8(a, shift) ((a)>>(shift)) /* shift >= 0, shift < 8 */
+#define silk_RSHIFT16(a, shift) ((a)>>(shift)) /* shift >= 0, shift < 16 */
+#define silk_RSHIFT32(a, shift) ((a)>>(shift)) /* shift >= 0, shift < 32 */
+#define silk_RSHIFT64(a, shift) ((a)>>(shift)) /* shift >= 0, shift < 64 */
+#define silk_RSHIFT(a, shift) silk_RSHIFT32(a, shift) /* shift >= 0, shift < 32 */
/* saturates before shifting */
-#define silk_LSHIFT_SAT16(a, shift) (silk_LSHIFT16( silk_LIMIT( (a), silk_RSHIFT16( silk_int16_MIN, (shift) ), \
- silk_RSHIFT16( silk_int16_MAX, (shift) ) ), (shift) ))
-#define silk_LSHIFT_SAT32(a, shift) (silk_LSHIFT32( silk_LIMIT( (a), silk_RSHIFT32( silk_int32_MIN, (shift) ), \
- silk_RSHIFT32( silk_int32_MAX, (shift) ) ), (shift) ))
+#define silk_LSHIFT_SAT16(a, shift) (silk_LSHIFT16( silk_LIMIT( (a), silk_RSHIFT16( silk_int16_MIN, (shift) ), \
+ silk_RSHIFT16( silk_int16_MAX, (shift) ) ), (shift) ))
+#define silk_LSHIFT_SAT32(a, shift) (silk_LSHIFT32( silk_LIMIT( (a), silk_RSHIFT32( silk_int32_MIN, (shift) ), \
+ silk_RSHIFT32( silk_int32_MAX, (shift) ) ), (shift) ))
-#define silk_LSHIFT_ovflw(a, shift) ((opus_int32)((opus_uint32)(a)<<(shift))) /* shift >= 0, allowed to overflow */
-#define silk_LSHIFT_uint(a, shift) ((a)<<(shift)) /* shift >= 0 */
-#define silk_RSHIFT_uint(a, shift) ((a)>>(shift)) /* shift >= 0 */
+#define silk_LSHIFT_ovflw(a, shift) ((opus_int32)((opus_uint32)(a) << (shift))) /* shift >= 0, allowed to overflow */
+#define silk_LSHIFT_uint(a, shift) ((a) << (shift)) /* shift >= 0 */
+#define silk_RSHIFT_uint(a, shift) ((a) >> (shift)) /* shift >= 0 */
-#define silk_ADD_LSHIFT(a, b, shift) ((a) + silk_LSHIFT((b), (shift))) /* shift >= 0 */
-#define silk_ADD_LSHIFT32(a, b, shift) silk_ADD32((a), silk_LSHIFT32((b), (shift))) /* shift >= 0 */
-#define silk_ADD_LSHIFT_uint(a, b, shift) ((a) + silk_LSHIFT_uint((b), (shift))) /* shift >= 0 */
-#define silk_ADD_RSHIFT(a, b, shift) ((a) + silk_RSHIFT((b), (shift))) /* shift >= 0 */
-#define silk_ADD_RSHIFT32(a, b, shift) silk_ADD32((a), silk_RSHIFT32((b), (shift))) /* shift >= 0 */
-#define silk_ADD_RSHIFT_uint(a, b, shift) ((a) + silk_RSHIFT_uint((b), (shift))) /* shift >= 0 */
-#define silk_SUB_LSHIFT32(a, b, shift) silk_SUB32((a), silk_LSHIFT32((b), (shift))) /* shift >= 0 */
-#define silk_SUB_RSHIFT32(a, b, shift) silk_SUB32((a), silk_RSHIFT32((b), (shift))) /* shift >= 0 */
+#define silk_ADD_LSHIFT(a, b, shift) ((a) + silk_LSHIFT((b), (shift))) /* shift >= 0 */
+#define silk_ADD_LSHIFT32(a, b, shift) silk_ADD32((a), silk_LSHIFT32((b), (shift))) /* shift >= 0 */
+#define silk_ADD_LSHIFT_uint(a, b, shift) ((a) + silk_LSHIFT_uint((b), (shift))) /* shift >= 0 */
+#define silk_ADD_RSHIFT(a, b, shift) ((a) + silk_RSHIFT((b), (shift))) /* shift >= 0 */
+#define silk_ADD_RSHIFT32(a, b, shift) silk_ADD32((a), silk_RSHIFT32((b), (shift))) /* shift >= 0 */
+#define silk_ADD_RSHIFT_uint(a, b, shift) ((a) + silk_RSHIFT_uint((b), (shift))) /* shift >= 0 */
+#define silk_SUB_LSHIFT32(a, b, shift) silk_SUB32((a), silk_LSHIFT32((b), (shift))) /* shift >= 0 */
+#define silk_SUB_RSHIFT32(a, b, shift) silk_SUB32((a), silk_RSHIFT32((b), (shift))) /* shift >= 0 */
/* Requires that shift > 0 */
-#define silk_RSHIFT_ROUND(a, shift) ((shift) == 1 ? ((a) >> 1) + ((a) & 1) : (((a) >> ((shift) - 1)) + 1) >> 1)
-#define silk_RSHIFT_ROUND64(a, shift) ((shift) == 1 ? ((a) >> 1) + ((a) & 1) : (((a) >> ((shift) - 1)) + 1) >> 1)
+#define silk_RSHIFT_ROUND(a, shift) ((shift) == 1 ? ((a) >> 1) + ((a) & 1) : (((a) >> ((shift) - 1)) + 1) >> 1)
+#define silk_RSHIFT_ROUND64(a, shift) ((shift) == 1 ? ((a) >> 1) + ((a) & 1) : (((a) >> ((shift) - 1)) + 1) >> 1)
/* Number of rightshift required to fit the multiplication */
-#define silk_NSHIFT_MUL_32_32(a, b) ( -(31- (32-silk_CLZ32(silk_abs(a)) + (32-silk_CLZ32(silk_abs(b))))) )
-#define silk_NSHIFT_MUL_16_16(a, b) ( -(15- (16-silk_CLZ16(silk_abs(a)) + (16-silk_CLZ16(silk_abs(b))))) )
+#define silk_NSHIFT_MUL_32_32(a, b) ( -(31- (32-silk_CLZ32(silk_abs(a)) + (32-silk_CLZ32(silk_abs(b))))) )
+#define silk_NSHIFT_MUL_16_16(a, b) ( -(15- (16-silk_CLZ16(silk_abs(a)) + (16-silk_CLZ16(silk_abs(b))))) )
-#define silk_min(a, b) (((a) < (b)) ? (a) : (b))
-#define silk_max(a, b) (((a) > (b)) ? (a) : (b))
+#define silk_min(a, b) (((a) < (b)) ? (a) : (b))
+#define silk_max(a, b) (((a) > (b)) ? (a) : (b))
/* Macro to convert floating-point constants to fixed-point */
-#define SILK_FIX_CONST( C, Q ) ((opus_int32)((C) * ((opus_int64)1 << (Q)) + 0.5))
+#define SILK_FIX_CONST( C, Q ) ((opus_int32)((C) * ((opus_int64)1 << (Q)) + 0.5))
/* silk_min() versions with typecast in the function call */
static inline opus_int silk_min_int(opus_int a, opus_int b)
@@ -554,38 +552,36 @@
return (((a) > (b)) ? (a) : (b));
}
-#define silk_LIMIT( a, limit1, limit2) ((limit1) > (limit2) ? ((a) > (limit1) ? (limit1) : ((a) < (limit2) ? (limit2) : (a))) \
- : ((a) > (limit2) ? (limit2) : ((a) < (limit1) ? (limit1) : (a))))
+#define silk_LIMIT( a, limit1, limit2) ((limit1) > (limit2) ? ((a) > (limit1) ? (limit1) : ((a) < (limit2) ? (limit2) : (a))) \
+ : ((a) > (limit2) ? (limit2) : ((a) < (limit1) ? (limit1) : (a))))
-#define silk_LIMIT_int silk_LIMIT
-#define silk_LIMIT_16 silk_LIMIT
-#define silk_LIMIT_32 silk_LIMIT
+#define silk_LIMIT_int silk_LIMIT
+#define silk_LIMIT_16 silk_LIMIT
+#define silk_LIMIT_32 silk_LIMIT
-/*#define silk_non_neg(a) ((a) & ((-(a)) >> (8 * sizeof(a) - 1)))*/ /* doesn't seem faster than silk_max(0, a);*/
+#define silk_abs(a) (((a) > 0) ? (a) : -(a)) /* Be careful, silk_abs returns wrong when input equals to silk_intXX_MIN */
+#define silk_abs_int(a) (((a) ^ ((a) >> (8 * sizeof(a) - 1))) - ((a) >> (8 * sizeof(a) - 1)))
+#define silk_abs_int32(a) (((a) ^ ((a) >> 31)) - ((a) >> 31))
+#define silk_abs_int64(a) (((a) > 0) ? (a) : -(a))
-#define silk_abs(a) (((a) > 0) ? (a) : -(a)) /* Be careful, silk_abs returns wrong when input equals to silk_intXX_MIN */
-#define silk_abs_int(a) (((a) ^ ((a) >> (8 * sizeof(a) - 1))) - ((a) >> (8 * sizeof(a) - 1)))
-#define silk_abs_int32(a) (((a) ^ ((a) >> 31)) - ((a) >> 31))
-#define silk_abs_int64(a) (((a) > 0) ? (a) : -(a))
+#define silk_sign(a) ((a) > 0 ? 1 : ( (a) < 0 ? -1 : 0 ))
-#define silk_sign(a) ((a) > 0 ? 1 : ( (a) < 0 ? -1 : 0 ))
-
-#define silk_sqrt(a) (sqrt(a))
+#define silk_sqrt(a) (sqrt(a))
/* PSEUDO-RANDOM GENERATOR */
/* Make sure to store the result as the seed for the next call (also in between */
/* frames), otherwise result won't be random at all. When only using some of the */
/* bits, take the most significant bits by right-shifting. */
-#define silk_RAND(seed) (silk_MLA_ovflw(907633515, (seed), 196314165))
+#define silk_RAND(seed) (silk_MLA_ovflw(907633515, (seed), 196314165))
/* Add some multiplication functions that can be easily mapped to ARM. */
/* silk_SMMUL: Signed top word multiply.
ARMv6 2 instruction cycles.
- ARMv3M+ 3 instruction cycles. use SMULL and ignore LSB registers.(except xM)*/
-/*#define silk_SMMUL(a32, b32) (opus_int32)silk_RSHIFT(silk_SMLAL(silk_SMULWB((a32), (b32)), (a32), silk_RSHIFT_ROUND((b32), 16)), 16)*/
+ ARMv3M+ 3 instruction cycles. use SMULL and ignore LSB registers.(except xM)*/
+/*#define silk_SMMUL(a32, b32) (opus_int32)silk_RSHIFT(silk_SMLAL(silk_SMULWB((a32), (b32)), (a32), silk_RSHIFT_ROUND((b32), 16)), 16)*/
/* the following seems faster on x86 */
-#define silk_SMMUL(a32, b32) (opus_int32)silk_RSHIFT64(silk_SMULL((a32), (b32)), 32)
+#define silk_SMMUL(a32, b32) (opus_int32)silk_RSHIFT64(silk_SMULL((a32), (b32)), 32)
#include "Inlines.h"
#include "MacroCount.h"
diff --git a/silk/VAD.c b/silk/VAD.c
index 5b13b90..1f7e564 100644
--- a/silk/VAD.c
+++ b/silk/VAD.c
@@ -41,8 +41,8 @@
/**********************************/
/* Initialization of the Silk VAD */
/**********************************/
-opus_int silk_VAD_Init( /* O Return value, 0 if success */
- silk_VAD_state *psSilk_VAD /* I/O Pointer to Silk VAD state */
+opus_int silk_VAD_Init( /* O Return value, 0 if success */
+ silk_VAD_state *psSilk_VAD /* I/O Pointer to Silk VAD state */
)
{
opus_int b, ret = 0;
@@ -77,9 +77,9 @@
/***************************************/
/* Get the speech activity level in Q8 */
/***************************************/
-opus_int silk_VAD_GetSA_Q8( /* O Return value, 0 if success */
- silk_encoder_state *psEncC, /* I/O Encoder state */
- const opus_int16 pIn[] /* I PCM input */
+opus_int silk_VAD_GetSA_Q8( /* O Return value, 0 if success */
+ silk_encoder_state *psEncC, /* I/O Encoder state */
+ const opus_int16 pIn[] /* I PCM input */
)
{
opus_int SA_Q15, pSNR_dB_Q7, input_tilt;
@@ -271,7 +271,7 @@
/* Noise level estimation */
/**************************/
static inline void silk_VAD_GetNoiseLevels(
- const opus_int32 pX[ VAD_N_BANDS ], /* I subband energies */
+ const opus_int32 pX[ VAD_N_BANDS ], /* I subband energies */
silk_VAD_state *psSilk_VAD /* I/O Pointer to Silk VAD state */
)
{
diff --git a/silk/VQ_WMat_EC.c b/silk/VQ_WMat_EC.c
index 5397d86..4505a86 100644
--- a/silk/VQ_WMat_EC.c
+++ b/silk/VQ_WMat_EC.c
@@ -33,14 +33,14 @@
/* Entropy constrained matrix-weighted VQ, hard-coded to 5-element vectors, for a single input data vector */
void silk_VQ_WMat_EC(
- opus_int8 *ind, /* O index of best codebook vector */
- opus_int32 *rate_dist_Q14, /* O best weighted quantization error + mu * rate*/
- const opus_int16 *in_Q14, /* I input vector to be quantized */
- const opus_int32 *W_Q18, /* I weighting matrix */
- const opus_int8 *cb_Q7, /* I codebook */
- const opus_uint8 *cl_Q5, /* I code length for each codebook vector */
- const opus_int mu_Q9, /* I tradeoff between weighted error and rate */
- opus_int L /* I number of vectors in codebook */
+ opus_int8 *ind, /* O index of best codebook vector */
+ opus_int32 *rate_dist_Q14, /* O best weighted quant error + mu * rate */
+ const opus_int16 *in_Q14, /* I input vector to be quantized */
+ const opus_int32 *W_Q18, /* I weighting matrix */
+ const opus_int8 *cb_Q7, /* I codebook */
+ const opus_uint8 *cl_Q5, /* I code length for each codebook vector */
+ const opus_int mu_Q9, /* I tradeoff betw. weighted error and rate */
+ opus_int L /* I number of vectors in codebook */
)
{
opus_int k;
diff --git a/silk/ana_filt_bank_1.c b/silk/ana_filt_bank_1.c
index a3f93fb..bad630e 100644
--- a/silk/ana_filt_bank_1.c
+++ b/silk/ana_filt_bank_1.c
@@ -37,11 +37,11 @@
/* Split signal into two decimated bands using first-order allpass filters */
void silk_ana_filt_bank_1(
- const opus_int16 *in, /* I: Input signal [N] */
- opus_int32 *S, /* I/O: State vector [2] */
- opus_int16 *outL, /* O: Low band [N/2] */
- opus_int16 *outH, /* O: High band [N/2] */
- const opus_int32 N /* I: Number of input samples */
+ const opus_int16 *in, /* I Input signal [N] */
+ opus_int32 *S, /* I/O State vector [2] */
+ opus_int16 *outL, /* O Low band [N/2] */
+ opus_int16 *outH, /* O High band [N/2] */
+ const opus_int32 N /* I Number of input samples */
)
{
opus_int k, N2 = silk_RSHIFT( N, 1 );
diff --git a/silk/biquad_alt.c b/silk/biquad_alt.c
index 74a66a5..91a75b6 100644
--- a/silk/biquad_alt.c
+++ b/silk/biquad_alt.c
@@ -38,16 +38,15 @@
#include "SigProc_FIX.h"
-
/* Second order ARMA filter, alternative implementation */
void silk_biquad_alt(
- const opus_int16 *in, /* I: Input signal */
- const opus_int32 *B_Q28, /* I: MA coefficients [3] */
- const opus_int32 *A_Q28, /* I: AR coefficients [2] */
- opus_int32 *S, /* I/O: State vector [2] */
- opus_int16 *out, /* O: Output signal */
- const opus_int32 len, /* I: Signal length (must be even) */
- opus_int stride /* I: Operate on interleaved signal if > 1 */
+ const opus_int16 *in, /* I input signal */
+ const opus_int32 *B_Q28, /* I MA coefficients [3] */
+ const opus_int32 *A_Q28, /* I AR coefficients [2] */
+ opus_int32 *S, /* I/O State vector [2] */
+ opus_int16 *out, /* O output signal */
+ const opus_int32 len, /* I signal length (must be even) */
+ opus_int stride /* I Operate on interleaved signal if > 1 */
)
{
/* DIRECT FORM II TRANSPOSED (uses 2 element state vector) */
@@ -56,9 +55,9 @@
/* Negate A_Q28 values and split in two parts */
A0_L_Q28 = ( -A_Q28[ 0 ] ) & 0x00003FFF; /* lower part */
- A0_U_Q28 = silk_RSHIFT( -A_Q28[ 0 ], 14 ); /* upper part */
+ A0_U_Q28 = silk_RSHIFT( -A_Q28[ 0 ], 14 ); /* upper part */
A1_L_Q28 = ( -A_Q28[ 1 ] ) & 0x00003FFF; /* lower part */
- A1_U_Q28 = silk_RSHIFT( -A_Q28[ 1 ], 14 ); /* upper part */
+ A1_U_Q28 = silk_RSHIFT( -A_Q28[ 1 ], 14 ); /* upper part */
for( k = 0; k < len; k++ ) {
/* S[ 0 ], S[ 1 ]: Q12 */
diff --git a/silk/bwexpander.c b/silk/bwexpander.c
index ab74272..279a985 100644
--- a/silk/bwexpander.c
+++ b/silk/bwexpander.c
@@ -33,9 +33,9 @@
/* Chirp (bandwidth expand) LP AR filter */
void silk_bwexpander(
- opus_int16 *ar, /* I/O AR filter to be expanded (without leading 1) */
- const opus_int d, /* I Length of ar */
- opus_int32 chirp_Q16 /* I Chirp factor (typically in the range 0 to 1) */
+ opus_int16 *ar, /* I/O AR filter to be expanded (without leading 1) */
+ const opus_int d, /* I Length of ar */
+ opus_int32 chirp_Q16 /* I Chirp factor (typically in the range 0 to 1) */
)
{
opus_int i;
diff --git a/silk/bwexpander_32.c b/silk/bwexpander_32.c
index 4bac1c6..2496362 100644
--- a/silk/bwexpander_32.c
+++ b/silk/bwexpander_32.c
@@ -33,9 +33,9 @@
/* Chirp (bandwidth expand) LP AR filter */
void silk_bwexpander_32(
- opus_int32 *ar, /* I/O AR filter to be expanded (without leading 1) */
- const opus_int d, /* I Length of ar */
- opus_int32 chirp_Q16 /* I Chirp factor in Q16 */
+ opus_int32 *ar, /* I/O AR filter to be expanded (without leading 1) */
+ const opus_int d, /* I Length of ar */
+ opus_int32 chirp_Q16 /* I Chirp factor in Q16 */
)
{
opus_int i;
diff --git a/silk/check_control_input.c b/silk/check_control_input.c
index 0a8d726..35888c9 100644
--- a/silk/check_control_input.c
+++ b/silk/check_control_input.c
@@ -35,7 +35,7 @@
/* Check encoder control struct */
opus_int check_control_input(
- silk_EncControlStruct *encControl /* I: Control structure */
+ silk_EncControlStruct *encControl /* I Control structure */
)
{
silk_assert( encControl != NULL );
diff --git a/silk/code_signs.c b/silk/code_signs.c
index 02a3aeb..c0b940a 100644
--- a/silk/code_signs.c
+++ b/silk/code_signs.c
@@ -40,11 +40,11 @@
/* Encodes signs of excitation */
void silk_encode_signs(
ec_enc *psRangeEnc, /* I/O Compressor data structure */
- const opus_int8 pulses[], /* I pulse signal */
- opus_int length, /* I length of input */
- const opus_int signalType, /* I Signal type */
- const opus_int quantOffsetType, /* I Quantization offset type */
- const opus_int sum_pulses[ MAX_NB_SHELL_BLOCKS ] /* I Sum of absolute pulses per block */
+ const opus_int8 pulses[], /* I pulse signal */
+ opus_int length, /* I length of input */
+ const opus_int signalType, /* I Signal type */
+ const opus_int quantOffsetType, /* I Quantization offset type */
+ const opus_int sum_pulses[ MAX_NB_SHELL_BLOCKS ] /* I Sum of absolute pulses per block */
)
{
opus_int i, j, p;
@@ -74,11 +74,11 @@
/* Decodes signs of excitation */
void silk_decode_signs(
ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int pulses[], /* I/O pulse signal */
- opus_int length, /* I length of input */
- const opus_int signalType, /* I Signal type */
- const opus_int quantOffsetType, /* I Quantization offset type */
- const opus_int sum_pulses[ MAX_NB_SHELL_BLOCKS ] /* I Sum of absolute pulses per block */
+ opus_int pulses[], /* I/O pulse signal */
+ opus_int length, /* I length of input */
+ const opus_int signalType, /* I Signal type */
+ const opus_int quantOffsetType, /* I Quantization offset type */
+ const opus_int sum_pulses[ MAX_NB_SHELL_BLOCKS ] /* I Sum of absolute pulses per block */
)
{
opus_int i, j, p;
diff --git a/silk/control.h b/silk/control.h
index 47afecf..a29c9cc 100644
--- a/silk/control.h
+++ b/silk/control.h
@@ -83,13 +83,13 @@
/* I: Flag to use constant bitrate */
opus_int useCBR;
- /* I: Maximum number of bits allowed for the frame */
+ /* I: Maximum number of bits allowed for the frame */
opus_int maxBits;
- /* I: Causes a smooth downmix to mono */
+ /* I: Causes a smooth downmix to mono */
opus_int toMono;
- /* I: Opus encoder is allowing us to switch bandwidth */
+ /* I: Opus encoder is allowing us to switch bandwidth */
opus_int opusCanSwitch;
/* O: Internal sampling rate used, in Hertz; 8000/12000/16000 */
@@ -104,7 +104,7 @@
/* O: Stereo width */
opus_int stereoWidth_Q14;
- /* O: Tells the Opus encoder we're ready to switch */
+ /* O: Tells the Opus encoder we're ready to switch */
opus_int switchReady;
} silk_EncControlStruct;
diff --git a/silk/control_SNR.c b/silk/control_SNR.c
index 3c65fd7..3dbafb0 100644
--- a/silk/control_SNR.c
+++ b/silk/control_SNR.c
@@ -34,8 +34,8 @@
/* Control SNR of redidual quantizer */
opus_int silk_control_SNR(
- silk_encoder_state *psEncC, /* I/O Pointer to Silk encoder state */
- opus_int32 TargetRate_bps /* I Target max bitrate (bps) */
+ silk_encoder_state *psEncC, /* I/O Pointer to Silk encoder state */
+ opus_int32 TargetRate_bps /* I Target max bitrate (bps) */
)
{
opus_int k, ret = SILK_NO_ERROR;
diff --git a/silk/control_audio_bandwidth.c b/silk/control_audio_bandwidth.c
index e551e9d..a8541f6 100644
--- a/silk/control_audio_bandwidth.c
+++ b/silk/control_audio_bandwidth.c
@@ -34,8 +34,8 @@
/* Control internal sampling rate */
opus_int silk_control_audio_bandwidth(
- silk_encoder_state *psEncC, /* I/O Pointer to Silk encoder state */
- silk_EncControlStruct *encControl /* I: Control structure */
+ silk_encoder_state *psEncC, /* I/O Pointer to Silk encoder state */
+ silk_EncControlStruct *encControl /* I Control structure */
)
{
opus_int fs_kHz;
@@ -71,7 +71,7 @@
/* Reset transition filter state */
silk_memset( psEncC->sLP.In_LP_State, 0, sizeof( psEncC->sLP.In_LP_State ) );
}
- if (encControl->opusCanSwitch) {
+ if( encControl->opusCanSwitch ) {
/* Stop transition phase */
psEncC->sLP.mode = 0;
@@ -91,7 +91,7 @@
if( silk_SMULBB( psEncC->fs_kHz, 1000 ) < psEncC->desiredInternal_fs_Hz )
{
/* Switch up */
- if (encControl->opusCanSwitch) {
+ if( encControl->opusCanSwitch ) {
/* Switch to a higher sample frequency */
fs_kHz = psEncC->fs_kHz == 8 ? 12 : 16;
@@ -115,9 +115,5 @@
}
}
-#ifdef FORCE_INTERNAL_FS_KHZ
- fs_kHz = FORCE_INTERNAL_FS_KHZ;
-#endif
-
return fs_kHz;
}
diff --git a/silk/control_codec.c b/silk/control_codec.c
index 418be4d..829b08f 100644
--- a/silk/control_codec.c
+++ b/silk/control_codec.c
@@ -36,7 +36,7 @@
#define silk_encoder_state_Fxx silk_encoder_state_FLP
#endif
#include "tuning_parameters.h"
-
+#include "pitch_est_defines.h"
static const opus_int enc_delay_matrix[3][5] = {
/*SILK API 8 12 16 24 48 */
@@ -47,34 +47,34 @@
opus_int silk_setup_resamplers(
silk_encoder_state_Fxx *psEnc, /* I/O */
- opus_int fs_kHz /* I */
+ opus_int fs_kHz /* I */
);
opus_int silk_setup_fs(
silk_encoder_state_Fxx *psEnc, /* I/O */
- opus_int fs_kHz, /* I */
- opus_int PacketSize_ms /* I */
+ opus_int fs_kHz, /* I */
+ opus_int PacketSize_ms /* I */
);
opus_int silk_setup_complexity(
silk_encoder_state *psEncC, /* I/O */
- opus_int Complexity /* I */
+ opus_int Complexity /* I */
);
static inline opus_int silk_setup_LBRR(
silk_encoder_state *psEncC, /* I/O */
- const opus_int32 TargetRate_bps /* I */
+ const opus_int32 TargetRate_bps /* I */
);
/* Control encoder */
opus_int silk_control_encoder(
- silk_encoder_state_Fxx *psEnc, /* I/O Pointer to Silk encoder state */
- 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
+ silk_encoder_state_Fxx *psEnc, /* I/O Pointer to Silk encoder state */
+ 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
)
{
opus_int fs_kHz, ret = 0;
@@ -105,8 +105,9 @@
/* Determine internal sampling rate */
/********************************************/
fs_kHz = silk_control_audio_bandwidth( &psEnc->sCmn, encControl );
- if (force_fs_kHz)
+ if( force_fs_kHz ) {
fs_kHz = force_fs_kHz;
+ }
/********************************************/
/* Prepare resampler and buffered data */
/********************************************/
@@ -194,8 +195,8 @@
opus_int silk_setup_fs(
silk_encoder_state_Fxx *psEnc, /* I/O */
- opus_int fs_kHz, /* I */
- opus_int PacketSize_ms /* I */
+ opus_int fs_kHz, /* I */
+ opus_int PacketSize_ms /* I */
)
{
opus_int ret = SILK_NO_ERROR;
@@ -310,7 +311,7 @@
opus_int silk_setup_complexity(
silk_encoder_state *psEncC, /* I/O */
- opus_int Complexity /* I */
+ opus_int Complexity /* I */
)
{
opus_int ret = 0;
@@ -392,7 +393,7 @@
static inline opus_int silk_setup_LBRR(
silk_encoder_state *psEncC, /* I/O */
- const opus_int32 TargetRate_bps /* I */
+ const opus_int32 TargetRate_bps /* I */
)
{
opus_int ret = SILK_NO_ERROR;
diff --git a/silk/create_init_destroy.c b/silk/create_init_destroy.c
index ead7428..f744bc6 100644
--- a/silk/create_init_destroy.c
+++ b/silk/create_init_destroy.c
@@ -31,12 +31,11 @@
#include "main.h"
-
/************************/
/* Init Decoder State */
/************************/
opus_int silk_init_decoder(
- silk_decoder_state *psDec /* I/O Decoder state pointer */
+ silk_decoder_state *psDec /* I/O Decoder state pointer */
)
{
/* Clear the entire encoder state, except anything copied */
diff --git a/silk/debug.c b/silk/debug.c
index b8a31b3..5dfcaa9 100644
--- a/silk/debug.c
+++ b/silk/debug.c
@@ -42,7 +42,7 @@
#include <sys/time.h>
#endif
-unsigned long silk_GetHighResolutionTime(void) /* O: time in usec*/
+unsigned long silk_GetHighResolutionTime(void) /* O time in usec*/
{
/* Returns a time counter in microsec */
/* the resolution is platform dependent */
@@ -54,7 +54,7 @@
return (unsigned long)((1000000*(lpPerformanceCount.QuadPart)) / lpFrequency.QuadPart);
}
#else /* Linux or Mac*/
-unsigned long GetHighResolutionTime(void) /* O: time in usec*/
+unsigned long GetHighResolutionTime(void) /* O time in usec*/
{
struct timeval tv;
gettimeofday(&tv, 0);
diff --git a/silk/debug.h b/silk/debug.h
index e48f55d..a3ea5cd 100644
--- a/silk/debug.h
+++ b/silk/debug.h
@@ -41,7 +41,7 @@
{
#endif
-unsigned long GetHighResolutionTime(void); /* O: time in usec*/
+unsigned long GetHighResolutionTime(void); /* O time in usec*/
/* make SILK_DEBUG dependent on compiler's _DEBUG */
#if defined _WIN32
@@ -62,7 +62,8 @@
#endif
/* Flag for using timers */
-#define SILK_TIC_TOC 0
+#define SILK_TIC_TOC 0
+
#if SILK_TIC_TOC
@@ -84,9 +85,9 @@
/* */
/* and call the following just before exiting (from main) */
/* */
-/* silk_TimerSave("silk_TimingData.txt"); */
+/* silk_TimerSave("silk_TimingData.txt"); */
/* */
-/* results are now in silk_TimingData.txt */
+/* results are now in silk_TimingData.txt */
void silk_TimerSave(char *file_name);
@@ -104,10 +105,10 @@
extern unsigned long silk_Timer_start[silk_NUM_TIMERS_MAX];
#endif
extern unsigned int silk_Timer_cnt[silk_NUM_TIMERS_MAX];
-extern opus_int64 silk_Timer_sum[silk_NUM_TIMERS_MAX];
-extern opus_int64 silk_Timer_max[silk_NUM_TIMERS_MAX];
-extern opus_int64 silk_Timer_min[silk_NUM_TIMERS_MAX];
-extern opus_int64 silk_Timer_depth[silk_NUM_TIMERS_MAX];
+extern opus_int64 silk_Timer_sum[silk_NUM_TIMERS_MAX];
+extern opus_int64 silk_Timer_max[silk_NUM_TIMERS_MAX];
+extern opus_int64 silk_Timer_min[silk_NUM_TIMERS_MAX];
+extern opus_int64 silk_Timer_depth[silk_NUM_TIMERS_MAX];
/* WARNING: TIC()/TOC can measure only up to 0.1 seconds at a time */
#ifdef _WIN32
@@ -118,25 +119,25 @@
{ \
int k; \
init = 1; \
- for( k = 0; k < silk_Timer_nTimers; k++ ) { \
- if( strcmp(silk_Timer_tags[k], #TAG_NAME) == 0 ) { \
+ for( k = 0; k < silk_Timer_nTimers; k++ ) { \
+ if( strcmp(silk_Timer_tags[k], #TAG_NAME) == 0 ) { \
ID = k; \
break; \
} \
} \
if (ID == -1) { \
- ID = silk_Timer_nTimers; \
- silk_Timer_nTimers++; \
- silk_Timer_depth[ID] = silk_Timer_depth_ctr; \
- strcpy(silk_Timer_tags[ID], #TAG_NAME); \
- silk_Timer_cnt[ID] = 0; \
- silk_Timer_sum[ID] = 0; \
- silk_Timer_min[ID] = 0xFFFFFFFF; \
- silk_Timer_max[ID] = 0; \
+ ID = silk_Timer_nTimers; \
+ silk_Timer_nTimers++; \
+ silk_Timer_depth[ID] = silk_Timer_depth_ctr; \
+ strcpy(silk_Timer_tags[ID], #TAG_NAME); \
+ silk_Timer_cnt[ID] = 0; \
+ silk_Timer_sum[ID] = 0; \
+ silk_Timer_min[ID] = 0xFFFFFFFF; \
+ silk_Timer_max[ID] = 0; \
} \
} \
- silk_Timer_depth_ctr++; \
- QueryPerformanceCounter(&silk_Timer_start[ID]); \
+ silk_Timer_depth_ctr++; \
+ QueryPerformanceCounter(&silk_Timer_start[ID]); \
}
#else
#define TIC(TAG_NAME) { \
@@ -146,25 +147,25 @@
{ \
int k; \
init = 1; \
- for( k = 0; k < silk_Timer_nTimers; k++ ) { \
- if( strcmp(silk_Timer_tags[k], #TAG_NAME) == 0 ) { \
+ for( k = 0; k < silk_Timer_nTimers; k++ ) { \
+ if( strcmp(silk_Timer_tags[k], #TAG_NAME) == 0 ) { \
ID = k; \
break; \
} \
} \
if (ID == -1) { \
- ID = silk_Timer_nTimers; \
- silk_Timer_nTimers++; \
- silk_Timer_depth[ID] = silk_Timer_depth_ctr; \
- strcpy(silk_Timer_tags[ID], #TAG_NAME); \
- silk_Timer_cnt[ID] = 0; \
- silk_Timer_sum[ID] = 0; \
- silk_Timer_min[ID] = 0xFFFFFFFF; \
- silk_Timer_max[ID] = 0; \
+ ID = silk_Timer_nTimers; \
+ silk_Timer_nTimers++; \
+ silk_Timer_depth[ID] = silk_Timer_depth_ctr; \
+ strcpy(silk_Timer_tags[ID], #TAG_NAME); \
+ silk_Timer_cnt[ID] = 0; \
+ silk_Timer_sum[ID] = 0; \
+ silk_Timer_min[ID] = 0xFFFFFFFF; \
+ silk_Timer_max[ID] = 0; \
} \
} \
- silk_Timer_depth_ctr++; \
- silk_Timer_start[ID] = GetHighResolutionTime(); \
+ silk_Timer_depth_ctr++; \
+ silk_Timer_start[ID] = GetHighResolutionTime(); \
}
#endif
@@ -177,25 +178,25 @@
{ \
int k; \
init = 1; \
- for( k = 0; k < silk_Timer_nTimers; k++ ) { \
- if( strcmp(silk_Timer_tags[k], #TAG_NAME) == 0 ) { \
+ for( k = 0; k < silk_Timer_nTimers; k++ ) { \
+ if( strcmp(silk_Timer_tags[k], #TAG_NAME) == 0 ) { \
ID = k; \
break; \
} \
} \
} \
QueryPerformanceCounter(&lpPerformanceCount); \
- lpPerformanceCount.QuadPart -= silk_Timer_start[ID].QuadPart; \
+ lpPerformanceCount.QuadPart -= silk_Timer_start[ID].QuadPart; \
if((lpPerformanceCount.QuadPart < 100000000) && \
(lpPerformanceCount.QuadPart >= 0)) { \
- silk_Timer_cnt[ID]++; \
- silk_Timer_sum[ID] += lpPerformanceCount.QuadPart; \
- if( lpPerformanceCount.QuadPart > silk_Timer_max[ID] ) \
- silk_Timer_max[ID] = lpPerformanceCount.QuadPart; \
- if( lpPerformanceCount.QuadPart < silk_Timer_min[ID] ) \
- silk_Timer_min[ID] = lpPerformanceCount.QuadPart; \
+ silk_Timer_cnt[ID]++; \
+ silk_Timer_sum[ID] += lpPerformanceCount.QuadPart; \
+ if( lpPerformanceCount.QuadPart > silk_Timer_max[ID] ) \
+ silk_Timer_max[ID] = lpPerformanceCount.QuadPart; \
+ if( lpPerformanceCount.QuadPart < silk_Timer_min[ID] ) \
+ silk_Timer_min[ID] = lpPerformanceCount.QuadPart; \
} \
- silk_Timer_depth_ctr--; \
+ silk_Timer_depth_ctr--; \
}
#else
#define TOC(TAG_NAME) { \
@@ -206,25 +207,25 @@
{ \
int k; \
init = 1; \
- for( k = 0; k < silk_Timer_nTimers; k++ ) { \
- if( strcmp(silk_Timer_tags[k], #TAG_NAME) == 0 ) { \
+ for( k = 0; k < silk_Timer_nTimers; k++ ) { \
+ if( strcmp(silk_Timer_tags[k], #TAG_NAME) == 0 ) { \
ID = k; \
break; \
} \
} \
} \
endTime = GetHighResolutionTime(); \
- endTime -= silk_Timer_start[ID]; \
+ endTime -= silk_Timer_start[ID]; \
if((endTime < 100000000) && \
(endTime >= 0)) { \
- silk_Timer_cnt[ID]++; \
- silk_Timer_sum[ID] += endTime; \
- if( endTime > silk_Timer_max[ID] ) \
- silk_Timer_max[ID] = endTime; \
- if( endTime < silk_Timer_min[ID] ) \
- silk_Timer_min[ID] = endTime; \
+ silk_Timer_cnt[ID]++; \
+ silk_Timer_sum[ID] += endTime; \
+ if( endTime > silk_Timer_max[ID] ) \
+ silk_Timer_max[ID] = endTime; \
+ if( endTime < silk_Timer_min[ID] ) \
+ silk_Timer_min[ID] = endTime; \
} \
- silk_Timer_depth_ctr--; \
+ silk_Timer_depth_ctr--; \
}
#endif
@@ -238,45 +239,22 @@
#endif /* SILK_TIC_TOC */
-
#if SILK_DEBUG
/************************************/
/* write data to file for debugging */
/************************************/
-/* opens an empty file if this file has not yet been open, then writes to the file and closes it */
-/* if file has been open previously it is opened again and the fwrite is appending, finally it is closed */
-#define SAVE_DATA( FILE_NAME, DATA_PTR, N_BYTES ) { \
- static opus_int32 init = 0; \
- FILE *fp; \
- if (init == 0) { \
- init = 1; \
- fp = fopen(#FILE_NAME, "wb"); \
- } else { \
- fp = fopen(#FILE_NAME, "ab+"); \
- } \
- fwrite((DATA_PTR), (N_BYTES), 1, fp); \
- fclose(fp); \
-}
-
/* Example: DEBUG_STORE_DATA(testfile.pcm, &RIN[0], 160*sizeof(opus_int16)); */
-#if 0
-/* Ensure that everything is written to files when an assert breaks */
-#define DEBUG_STORE_DATA(FILE_NAME, DATA_PTR, N_BYTES) SAVE_DATA(FILE_NAME, DATA_PTR, N_BYTES)
-#define SILK_DEBUG_STORE_CLOSE_FILES
-
-#else
-
#define silk_NUM_STORES_MAX 100
extern FILE *silk_debug_store_fp[ silk_NUM_STORES_MAX ];
extern int silk_debug_store_count;
/* Faster way of storing the data */
#define DEBUG_STORE_DATA( FILE_NAME, DATA_PTR, N_BYTES ) { \
- static opus_int init = 0, cnt = 0; \
+ static opus_int init = 0, cnt = 0; \
static FILE **fp; \
if (init == 0) { \
- init = 1; \
+ init = 1; \
cnt = silk_debug_store_count++; \
silk_debug_store_fp[ cnt ] = fopen(#FILE_NAME, "wb"); \
} \
@@ -285,12 +263,11 @@
/* Call this at the end of main() */
#define SILK_DEBUG_STORE_CLOSE_FILES { \
- opus_int i; \
+ opus_int i; \
for( i = 0; i < silk_debug_store_count; i++ ) { \
fclose( silk_debug_store_fp[ i ] ); \
} \
}
-#endif
/* micro sec */
#define silk_GETTIME(void) time = (opus_int64) silk_GetHighResolutionTime();
@@ -299,7 +276,6 @@
/* define macros as empty strings */
#define DEBUG_STORE_DATA(FILE_NAME, DATA_PTR, N_BYTES)
-#define SAVE_DATA(FILE_NAME, DATA_PTR, N_BYTES)
#define SILK_DEBUG_STORE_CLOSE_FILES
#endif /* SILK_DEBUG */
diff --git a/silk/dec_API.c b/silk/dec_API.c
index 58cf59a..9fe62d9 100644
--- a/silk/dec_API.c
+++ b/silk/dec_API.c
@@ -46,7 +46,9 @@
/* Decoder functions */
/*********************/
-opus_int silk_Get_Decoder_Size( int *decSizeBytes )
+opus_int silk_Get_Decoder_Size( /* O Returns error code */
+ opus_int *decSizeBytes /* O Number of bytes in SILK decoder state */
+)
{
opus_int ret = SILK_NO_ERROR;
@@ -56,8 +58,8 @@
}
/* Reset decoder state */
-opus_int silk_InitDecoder(
- void* decState /* I/O: State */
+opus_int silk_InitDecoder( /* O Returns error code */
+ void *decState /* I/O State */
)
{
opus_int n, ret = SILK_NO_ERROR;
@@ -71,14 +73,14 @@
}
/* Decode a frame */
-opus_int silk_Decode(
- void* decState, /* I/O: State */
- silk_DecControlStruct* decControl, /* I/O: Control Structure */
- opus_int lostFlag, /* I: 0: no loss, 1 loss, 2 decode FEC */
- opus_int newPacketFlag, /* I: Indicates first decoder call for this packet */
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int16 *samplesOut, /* O: Decoded output speech vector */
- opus_int32 *nSamplesOut /* O: Number of samples decoded */
+opus_int silk_Decode( /* O Returns error code */
+ void* decState, /* I/O State */
+ silk_DecControlStruct* decControl, /* I/O Control Structure */
+ opus_int lostFlag, /* I 0: no loss, 1 loss, 2 decode fec */
+ opus_int newPacketFlag, /* I Indicates first decoder call for this packet */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int16 *samplesOut, /* O Decoded output speech vector */
+ opus_int32 *nSamplesOut /* O Number of samples decoded */
)
{
opus_int i, n, delay, decode_only_middle = 0, ret = SILK_NO_ERROR;
@@ -237,7 +239,7 @@
psDec->channel_state[ 1 ].first_frame_after_reset = 1;
}
- if (lostFlag == FLAG_DECODE_NORMAL) {
+ if( lostFlag == FLAG_DECODE_NORMAL ) {
has_side = !decode_only_middle;
} else {
has_side = !psDec->prev_decode_only_middle
@@ -318,7 +320,7 @@
decControl->prevPitchLag = 0;
}
- if ( lostFlag != FLAG_PACKET_LOST ) {
+ if( lostFlag != FLAG_PACKET_LOST ) {
psDec->prev_decode_only_middle = decode_only_middle;
}
return ret;
@@ -326,10 +328,10 @@
/* Getting table of contents for a packet */
opus_int silk_get_TOC(
- const opus_uint8 *payload, /* I Payload data */
- const opus_int nBytesIn, /* I: Number of input bytes */
- const opus_int nFramesPerPayload, /* I: Number of SILK frames per payload */
- silk_TOC_struct *Silk_TOC /* O: Type of content */
+ const opus_uint8 *payload, /* I Payload data */
+ const opus_int nBytesIn, /* I Number of input bytes */
+ const opus_int nFramesPerPayload, /* I Number of SILK frames per payload */
+ silk_TOC_struct *Silk_TOC /* O Type of content */
)
{
opus_int i, flags, ret = SILK_NO_ERROR;
diff --git a/silk/decode_core.c b/silk/decode_core.c
index fd7283f..9a4c9f3 100644
--- a/silk/decode_core.c
+++ b/silk/decode_core.c
@@ -35,10 +35,10 @@
/* Core decoder. Performs inverse NSQ operation LTP + LPC */
/**********************************************************/
void silk_decode_core(
- silk_decoder_state *psDec, /* I/O Decoder state */
- silk_decoder_control *psDecCtrl, /* I Decoder control */
- opus_int16 xq[], /* O Decoded speech */
- const opus_int pulses[ MAX_FRAME_LENGTH ] /* I Pulse signal */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl, /* I Decoder control */
+ opus_int16 xq[], /* O Decoded speech */
+ const opus_int pulses[ MAX_FRAME_LENGTH ] /* I Pulse signal */
)
{
opus_int i, j, k, lag = 0, start_idx, sLTP_buf_idx, NLSF_interpolation_flag, signalType;
@@ -77,10 +77,6 @@
rand_seed = silk_ADD32_ovflw(rand_seed, pulses[ i ]);
}
-#ifdef SAVE_ALL_INTERNAL_DATA
- DEBUG_STORE_DATA( dec_q.dat, pulses, psDec->frame_length * sizeof( opus_int ) );
-#endif
-
/* Copy LPC state */
silk_memcpy( sLPC_Q14, psDec->sLPC_Q14_buf, MAX_LPC_ORDER * sizeof( opus_int32 ) );
@@ -187,11 +183,6 @@
pres_Q10 = pexc_Q10;
}
-#ifdef SAVE_ALL_INTERNAL_DATA
- DEBUG_STORE_DATA( dec_exc_Q10.dat, pexc_Q10, psDec->subfr_length * sizeof( opus_int32 ) );
- DEBUG_STORE_DATA( dec_res_Q10.dat, pres_Q10, psDec->subfr_length * sizeof( opus_int32 ) );
-#endif
-
for( i = 0; i < psDec->subfr_length; i++ ) {
/* Partially unrolled */
LPC_pred_Q10 = silk_SMULWB( sLPC_Q14[ MAX_LPC_ORDER + i - 1 ], A_Q12_tmp[ 0 ] );
@@ -223,9 +214,4 @@
/* Save LPC state */
silk_memcpy( psDec->sLPC_Q14_buf, sLPC_Q14, MAX_LPC_ORDER * sizeof( opus_int32 ) );
-
-#ifdef SAVE_ALL_INTERNAL_DATA
- DEBUG_STORE_DATA( dec_sLTP_Q16.dat, &sLTP_Q16[ psDec->ltp_mem_length ], psDec->frame_length * sizeof( opus_int32 ));
- DEBUG_STORE_DATA( dec_xq.dat, xq, psDec->frame_length * sizeof( opus_int16 ) );
-#endif
}
diff --git a/silk/decode_frame.c b/silk/decode_frame.c
index 83c9221..91adc38 100644
--- a/silk/decode_frame.c
+++ b/silk/decode_frame.c
@@ -36,20 +36,18 @@
/* Decode frame */
/****************/
opus_int silk_decode_frame(
- silk_decoder_state *psDec, /* I/O Pointer to Silk decoder state */
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int16 pOut[], /* O Pointer to output speech frame */
- opus_int32 *pN, /* O Pointer to size of output frame */
- opus_int lostFlag, /* I 0: no loss, 1 loss, 2 decode fec */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_decoder_state *psDec, /* I/O Pointer to Silk decoder state */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int16 pOut[], /* O Pointer to output speech frame */
+ opus_int32 *pN, /* O Pointer to size of output frame */
+ opus_int lostFlag, /* I 0: no loss, 1 loss, 2 decode fec */
+ opus_int condCoding /* I The type of conditional coding to use */
)
{
silk_decoder_control sDecCtrl;
opus_int L, mv_len, ret = 0;
opus_int pulses[ MAX_FRAME_LENGTH ];
-TIC(DECODE_FRAME)
-
L = psDec->frame_length;
sDecCtrl.LTP_scale_Q14 = 0;
@@ -62,24 +60,18 @@
/*********************************************/
/* Decode quantization indices of side info */
/*********************************************/
-TIC(decode_indices)
silk_decode_indices( psDec, psRangeDec, psDec->nFramesDecoded, lostFlag, condCoding );
-TOC(decode_indices)
/*********************************************/
/* Decode quantization indices of excitation */
/*********************************************/
-TIC(decode_pulses)
silk_decode_pulses( psRangeDec, pulses, psDec->indices.signalType,
psDec->indices.quantOffsetType, psDec->frame_length );
-TOC(decode_pulses)
/********************************************/
/* Decode parameters and pulse signal */
/********************************************/
-TIC(decode_params)
silk_decode_parameters( psDec, &sDecCtrl, condCoding );
-TOC(decode_params)
/* Update length. Sampling frequency may have changed */
L = psDec->frame_length;
@@ -87,9 +79,7 @@
/********************************************************/
/* Run inverse NSQ */
/********************************************************/
-TIC(decode_core)
silk_decode_core( psDec, &sDecCtrl, pOut, pulses );
-TOC(decode_core)
/********************************************************/
/* Update PLC state */
@@ -131,7 +121,5 @@
/* Set output frame length */
*pN = L;
-TOC(DECODE_FRAME)
-
return ret;
}
diff --git a/silk/decode_indices.c b/silk/decode_indices.c
index 8ac53f4..e344b1e 100644
--- a/silk/decode_indices.c
+++ b/silk/decode_indices.c
@@ -33,11 +33,11 @@
/* Decode side-information parameters from payload */
void silk_decode_indices(
- silk_decoder_state *psDec, /* I/O State */
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int FrameIndex, /* I Frame number */
- opus_int decode_LBRR, /* I Flag indicating LBRR data is being decoded */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_decoder_state *psDec, /* I/O State */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int FrameIndex, /* I Frame number */
+ opus_int decode_LBRR, /* I Flag indicating LBRR data is being decoded */
+ opus_int condCoding /* I The type of conditional coding to use */
)
{
opus_int i, k, Ix;
diff --git a/silk/decode_parameters.c b/silk/decode_parameters.c
index 1ab8ed7..6c69cfa 100644
--- a/silk/decode_parameters.c
+++ b/silk/decode_parameters.c
@@ -33,9 +33,9 @@
/* Decode parameters from payload */
void silk_decode_parameters(
- silk_decoder_state *psDec, /* I/O State */
- silk_decoder_control *psDecCtrl, /* I/O Decoder control */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_decoder_state *psDec, /* I/O State */
+ silk_decoder_control *psDecCtrl, /* I/O Decoder control */
+ opus_int condCoding /* I The type of conditional coding to use */
)
{
opus_int i, k, Ix;
diff --git a/silk/decode_pitch.c b/silk/decode_pitch.c
index 6aeb7ab..8fc6f07 100644
--- a/silk/decode_pitch.c
+++ b/silk/decode_pitch.c
@@ -36,11 +36,11 @@
#include "pitch_est_defines.h"
void silk_decode_pitch(
- opus_int16 lagIndex, /* I */
- opus_int8 contourIndex, /* O */
- opus_int pitch_lags[], /* O pitch values */
- const opus_int Fs_kHz, /* I sampling frequency (kHz) */
- const opus_int nb_subfr /* I number of sub frames */
+ opus_int16 lagIndex, /* I */
+ opus_int8 contourIndex, /* O */
+ opus_int pitch_lags[], /* O 4 pitch values */
+ const opus_int Fs_kHz, /* I sampling frequency (kHz) */
+ const opus_int nb_subfr /* I number of sub frames */
)
{
opus_int lag, k, min_lag, max_lag, cbk_size;
diff --git a/silk/decode_pulses.c b/silk/decode_pulses.c
index 692ab92..e398f19 100644
--- a/silk/decode_pulses.c
+++ b/silk/decode_pulses.c
@@ -35,11 +35,11 @@
/* Decode quantization indices of excitation */
/*********************************************/
void silk_decode_pulses(
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int pulses[], /* O Excitation signal */
- const opus_int signalType, /* I Sigtype */
- const opus_int quantOffsetType, /* I quantOffsetType */
- const opus_int frame_length /* I Frame length */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int pulses[], /* O Excitation signal */
+ const opus_int signalType, /* I Sigtype */
+ const opus_int quantOffsetType, /* I quantOffsetType */
+ const opus_int frame_length /* I Frame length */
)
{
opus_int i, j, k, iter, abs_q, nLS, RateLevelIndex;
@@ -55,7 +55,7 @@
/* Calculate number of shell blocks */
silk_assert( 1 << LOG2_SHELL_CODEC_FRAME_LENGTH == SHELL_CODEC_FRAME_LENGTH );
iter = silk_RSHIFT( frame_length, LOG2_SHELL_CODEC_FRAME_LENGTH );
- if( iter * SHELL_CODEC_FRAME_LENGTH < frame_length ){
+ if( iter * SHELL_CODEC_FRAME_LENGTH < frame_length ) {
silk_assert( frame_length == 12 * 10 ); /* Make sure only happens for 10 ms @ 12 kHz */
iter++;
}
@@ -73,7 +73,7 @@
nLshifts[ i ]++;
/* When we've already got 10 LSBs, we shift the table to not allow (MAX_PULSES + 1) */
sum_pulses[ i ] = ec_dec_icdf( psRangeDec,
- silk_pulses_per_block_iCDF[ N_RATE_LEVELS - 1] + (nLshifts[ i ]==10), 8 );
+ silk_pulses_per_block_iCDF[ N_RATE_LEVELS - 1] + ( nLshifts[ i ] == 10 ), 8 );
}
}
diff --git a/silk/decoder_set_fs.c b/silk/decoder_set_fs.c
index f80470f..5579b20 100644
--- a/silk/decoder_set_fs.c
+++ b/silk/decoder_set_fs.c
@@ -40,9 +40,9 @@
/* Set decoder sampling rate */
opus_int silk_decoder_set_fs(
- silk_decoder_state *psDec, /* I/O Decoder state pointer */
- opus_int fs_kHz, /* I Sampling frequency (kHz) */
- opus_int fs_API_Hz /* I API Sampling frequency (Hz) */
+ silk_decoder_state *psDec, /* I/O Decoder state pointer */
+ opus_int fs_kHz, /* I Sampling frequency (kHz) */
+ opus_int fs_API_Hz /* I API Sampling frequency (Hz) */
)
{
opus_int frame_length, ret = 0;
diff --git a/silk/define.h b/silk/define.h
index 8f9935f..dcfdee9 100644
--- a/silk/define.h
+++ b/silk/define.h
@@ -57,7 +57,7 @@
#define NB_SPEECH_FRAMES_BEFORE_DTX 10 /* eq 200 ms */
#define MAX_CONSECUTIVE_DTX 20 /* eq 400 ms */
-/* Maximum sampling frequency, should be 16 for embedded */
+/* Maximum sampling frequency */
#define MAX_FS_KHZ 16
#define MAX_API_FS_KHZ 48
@@ -74,12 +74,12 @@
/* Settings for stereo processing */
#define STEREO_QUANT_TAB_SIZE 16
#define STEREO_QUANT_SUB_STEPS 5
-#define STEREO_INTERP_LEN_MS 8 /* must be even */
-#define STEREO_RATIO_SMOOTH_COEF 0.01 /* smoothing coef for signal norms and stereo width */
+#define STEREO_INTERP_LEN_MS 8 /* must be even */
+#define STEREO_RATIO_SMOOTH_COEF 0.01 /* smoothing coef for signal norms and stereo width */
/* Range of pitch lag estimates */
-#define PITCH_EST_MIN_LAG_MS 2 /* 2 ms -> 500 Hz */
-#define PITCH_EST_MAX_LAG_MS 18 /* 18 ms -> 56 Hz */
+#define PITCH_EST_MIN_LAG_MS 2 /* 2 ms -> 500 Hz */
+#define PITCH_EST_MAX_LAG_MS 18 /* 18 ms -> 56 Hz */
/* Maximum number of subframes */
#define MAX_NB_SUBFR 4
@@ -92,7 +92,7 @@
#define MAX_FRAME_LENGTH ( MAX_FRAME_LENGTH_MS * MAX_FS_KHZ )
#define MAX_ENCODER_DELAY 18
-#define MAX_DECODER_DELAY 8
+#define MAX_DECODER_DELAY 8
/* Milliseconds of lookahead for pitch analysis */
#define LA_PITCH_MS 2
@@ -193,11 +193,11 @@
#define VAD_INTERNAL_SUBFRAMES_LOG2 2
#define VAD_INTERNAL_SUBFRAMES (1 << VAD_INTERNAL_SUBFRAMES_LOG2)
-#define VAD_NOISE_LEVEL_SMOOTH_COEF_Q16 1024 /* Must be < 4096 */
+#define VAD_NOISE_LEVEL_SMOOTH_COEF_Q16 1024 /* Must be < 4096 */
#define VAD_NOISE_LEVELS_BIAS 50
/* Sigmoid settings */
-#define VAD_NEGATIVE_OFFSET_Q5 128 /* sigmoid is 0 at -128 */
+#define VAD_NEGATIVE_OFFSET_Q5 128 /* sigmoid is 0 at -128 */
#define VAD_SNR_FACTOR_Q16 45000
/* smoothing for SNR measurement */
@@ -219,10 +219,10 @@
#define NLSF_QUANT_DEL_DEC_STATES ( 1 << NLSF_QUANT_DEL_DEC_STATES_LOG2 )
/* Transition filtering for mode switching */
-#define TRANSITION_TIME_MS 5120 /* 5120 = 64 * FRAME_LENGTH_MS * ( TRANSITION_INT_NUM - 1 ) = 64*(20*4)*/
-#define TRANSITION_NB 3 /* Hardcoded in tables */
-#define TRANSITION_NA 2 /* Hardcoded in tables */
-#define TRANSITION_INT_NUM 5 /* Hardcoded in tables */
+#define TRANSITION_TIME_MS 5120 /* 5120 = 64 * FRAME_LENGTH_MS * ( TRANSITION_INT_NUM - 1 ) = 64*(20*4)*/
+#define TRANSITION_NB 3 /* Hardcoded in tables */
+#define TRANSITION_NA 2 /* Hardcoded in tables */
+#define TRANSITION_INT_NUM 5 /* Hardcoded in tables */
#define TRANSITION_FRAMES ( TRANSITION_TIME_MS / MAX_FRAME_LENGTH_MS )
#define TRANSITION_INT_STEPS ( TRANSITION_FRAMES / ( TRANSITION_INT_NUM - 1 ) )
@@ -230,9 +230,9 @@
#define BWE_AFTER_LOSS_Q16 63570
/* Defines for CN generation */
-#define CNG_BUF_MASK_MAX 255 /* 2^floor(log2(MAX_FRAME_LENGTH))-1 */
-#define CNG_GAIN_SMTH_Q16 4634 /* 0.25^(1/4) */
-#define CNG_NLSF_SMTH_Q16 16348 /* 0.25 */
+#define CNG_BUF_MASK_MAX 255 /* 2^floor(log2(MAX_FRAME_LENGTH))-1 */
+#define CNG_GAIN_SMTH_Q16 4634 /* 0.25^(1/4) */
+#define CNG_NLSF_SMTH_Q16 16348 /* 0.25 */
#ifdef __cplusplus
}
diff --git a/silk/enc_API.c b/silk/enc_API.c
index 01a7e96..02a8fd0 100644
--- a/silk/enc_API.c
+++ b/silk/enc_API.c
@@ -44,7 +44,9 @@
/* Encoder functions */
/****************************************/
-opus_int silk_Get_Encoder_Size( opus_int *encSizeBytes )
+opus_int silk_Get_Encoder_Size( /* O Returns error code */
+ opus_int *encSizeBytes /* O Number of bytes in SILK encoder state */
+)
{
opus_int ret = SILK_NO_ERROR;
@@ -56,9 +58,9 @@
/*************************/
/* Init or Reset encoder */
/*************************/
-opus_int silk_InitEncoder(
- void *encState, /* I/O: State */
- silk_EncControlStruct *encStatus /* O: Control structure */
+opus_int silk_InitEncoder( /* O Returns error code */
+ void *encState, /* I/O State */
+ silk_EncControlStruct *encStatus /* O Encoder Status */
)
{
silk_encoder *psEnc;
@@ -88,9 +90,9 @@
/***************************************/
/* Read control structure from encoder */
/***************************************/
-opus_int silk_QueryEncoder(
- const void *encState, /* I: State Vector */
- silk_EncControlStruct *encStatus /* O: Control Structure */
+opus_int silk_QueryEncoder( /* O Returns error code */
+ const void *encState, /* I State */
+ silk_EncControlStruct *encStatus /* O Encoder Status */
)
{
opus_int ret = SILK_NO_ERROR;
@@ -123,14 +125,16 @@
/**************************/
/* Encode frame with Silk */
/**************************/
-opus_int silk_Encode(
- void *encState, /* I/O: State */
- silk_EncControlStruct *encControl, /* I: Control structure */
- const opus_int16 *samplesIn, /* I: Speech sample input vector */
- opus_int nSamplesIn, /* I: Number of samples in input vector */
- ec_enc *psRangeEnc, /* I/O Compressor data structure */
- opus_int *nBytesOut, /* I/O: Number of bytes in payload (input: Max bytes) */
- const opus_int prefillFlag /* I: Flag to indicate prefilling buffers; no coding */
+/* Note: if prefillFlag is set, the input must contain 10 ms of audio, irrespective of what */
+/* encControl->payloadSize_ms is set to */
+opus_int silk_Encode( /* O Returns error code */
+ void *encState, /* I/O State */
+ silk_EncControlStruct *encControl, /* I Control status */
+ const opus_int16 *samplesIn, /* I Speech sample input vector */
+ opus_int nSamplesIn, /* I Number of samples in input vector */
+ ec_enc *psRangeEnc, /* I/O Compressor data structure */
+ opus_int *nBytesOut, /* I/O Number of bytes in payload (input: Max bytes) */
+ const opus_int prefillFlag /* I Flag to indicate prefilling buffers no coding */
)
{
opus_int n, i, nBits, flags, tmp_payloadSize_ms = 0, tmp_complexity = 0, ret = 0;
@@ -270,17 +274,18 @@
buf[ n + delay ] = (opus_int16)silk_RSHIFT_ROUND( samplesIn[ 2 * n ] + samplesIn[ 2 * n + 1 ], 1 );
}
if(psEnc->nPrevChannelsInternal == 2 && psEnc->state_Fxx[ 0 ].sCmn.nFramesEncoded==0) {
- for ( n = 0; n<MAX_ENCODER_DELAY; n++ )
+ for( n = 0; n<MAX_ENCODER_DELAY; n++ ) {
psEnc->state_Fxx[ 0 ].sCmn.delayBuf[ n ] = silk_RSHIFT(psEnc->state_Fxx[ 0 ].sCmn.delayBuf[ n ]+(opus_int32)psEnc->state_Fxx[ 1 ].sCmn.delayBuf[ n ], 1);
+ }
}
silk_memcpy(buf, &psEnc->state_Fxx[ 0 ].sCmn.delayBuf[ MAX_ENCODER_DELAY - delay ], delay * sizeof(opus_int16));
ret += silk_resampler( &psEnc->state_Fxx[ 0 ].sCmn.resampler_state,
&psEnc->state_Fxx[ 0 ].sCmn.inputBuf[ psEnc->state_Fxx[ 0 ].sCmn.inputBufIx + 2 ], buf, nSamplesFromInput );
/* On the first mono frame, average the results for the two resampler states */
- if (psEnc->nPrevChannelsInternal == 2 && psEnc->state_Fxx[ 0 ].sCmn.nFramesEncoded==0) {
+ if( psEnc->nPrevChannelsInternal == 2 && psEnc->state_Fxx[ 0 ].sCmn.nFramesEncoded == 0 ) {
ret += silk_resampler( &psEnc->state_Fxx[ 1 ].sCmn.resampler_state,
&psEnc->state_Fxx[ 1 ].sCmn.inputBuf[ psEnc->state_Fxx[ 1 ].sCmn.inputBufIx + 2 ], buf, nSamplesFromInput );
- for ( n = 0; n < psEnc->state_Fxx[ 0 ].sCmn.frame_length; n++ ) {
+ for( n = 0; n < psEnc->state_Fxx[ 0 ].sCmn.frame_length; n++ ) {
psEnc->state_Fxx[ 0 ].sCmn.inputBuf[ psEnc->state_Fxx[ 0 ].sCmn.inputBufIx+n+2 ] =
silk_RSHIFT(psEnc->state_Fxx[ 0 ].sCmn.inputBuf[ psEnc->state_Fxx[ 0 ].sCmn.inputBufIx+n+2 ]
+ psEnc->state_Fxx[ 1 ].sCmn.inputBuf[ psEnc->state_Fxx[ 1 ].sCmn.inputBufIx+n+2 ], 1);
@@ -367,8 +372,9 @@
/* Total target bits for packet */
nBits = silk_DIV32_16( silk_MUL( encControl->bitRate, encControl->payloadSize_ms ), 1000 );
/* Subtract half of the bits already used */
- if (!prefillFlag)
+ if( !prefillFlag ) {
nBits -= ec_tell( psRangeEnc ) >> 1;
+ }
/* Divide by number of uncoded frames left in packet */
nBits = silk_DIV32_16( nBits, psEnc->state_Fxx[ 0 ].sCmn.nFramesPerPacket - psEnc->state_Fxx[ 0 ].sCmn.nFramesEncoded );
/* Convert to bits/second */
diff --git a/silk/encode_indices.c b/silk/encode_indices.c
index f87de03..f969a9b 100644
--- a/silk/encode_indices.c
+++ b/silk/encode_indices.c
@@ -33,11 +33,11 @@
/* Encode side-information parameters to payload */
void silk_encode_indices(
- silk_encoder_state *psEncC, /* I/O Encoder state */
- ec_enc *psRangeEnc, /* I/O Compressor data structure */
- opus_int FrameIndex, /* I Frame number */
- opus_int encode_LBRR, /* I Flag indicating LBRR data is being encoded */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_encoder_state *psEncC, /* I/O Encoder state */
+ ec_enc *psRangeEnc, /* I/O Compressor data structure */
+ opus_int FrameIndex, /* I Frame number */
+ opus_int encode_LBRR, /* I Flag indicating LBRR data is being encoded */
+ opus_int condCoding /* I The type of conditional coding to use */
)
{
opus_int i, k, typeOffset;
@@ -45,10 +45,6 @@
opus_int16 ec_ix[ MAX_LPC_ORDER ];
opus_uint8 pred_Q8[ MAX_LPC_ORDER ];
const SideInfoIndices *psIndices;
-#if SAVE_ALL_INTERNAL_DATA
- opus_int nBytes_lagIndex, nBytes_contourIndex, nBytes_LTP;
- opus_int nBytes_after, nBytes_before;
-#endif
if( encode_LBRR ) {
psIndices = &psEncC->indices_LBRR[ FrameIndex ];
@@ -71,9 +67,6 @@
/****************/
/* Encode gains */
/****************/
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_before = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
-#endif
/* first subframe */
if( condCoding == CODE_CONDITIONALLY ) {
/* conditional coding */
@@ -92,18 +85,9 @@
ec_enc_icdf( psRangeEnc, psIndices->GainsIndices[ i ], silk_delta_gain_iCDF, 8 );
}
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_after = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
- nBytes_after -= nBytes_before; /* bytes just added*/
- DEBUG_STORE_DATA( nBytes_gains.dat, &nBytes_after, sizeof( opus_int ) );
-#endif
-
/****************/
/* Encode NLSFs */
/****************/
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_before = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
-#endif
ec_enc_icdf( psRangeEnc, psIndices->NLSFIndices[ 0 ], &psEncC->psNLSF_CB->CB1_iCDF[ ( psIndices->signalType >> 1 ) * psEncC->psNLSF_CB->nVectors ], 8 );
silk_NLSF_unpack( ec_ix, pred_Q8, psEncC->psNLSF_CB, psIndices->NLSFIndices[ 0 ] );
silk_assert( psEncC->psNLSF_CB->order == psEncC->predictLPCOrder );
@@ -125,21 +109,11 @@
ec_enc_icdf( psRangeEnc, psIndices->NLSFInterpCoef_Q2, silk_NLSF_interpolation_factor_iCDF, 8 );
}
-#ifdef SAVE_ALL_INTERNAL_DATA
- DEBUG_STORE_DATA( lsf_interpol.dat, &psIndices->NLSFInterpCoef_Q2, sizeof(int) );
- nBytes_after = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
- nBytes_after -= nBytes_before; /* bytes just added*/
- DEBUG_STORE_DATA( nBytes_LSF.dat, &nBytes_after, sizeof( opus_int ) );
-#endif
-
if( psIndices->signalType == TYPE_VOICED )
{
/*********************/
/* Encode pitch lags */
/*********************/
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_before = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
-#endif
/* lag index */
encode_absolute_lagIndex = 1;
if( condCoding == CODE_CONDITIONALLY && psEncC->ec_prevSignalType == TYPE_VOICED ) {
@@ -166,14 +140,6 @@
}
psEncC->ec_prevLagIndex = psIndices->lagIndex;
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_after = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
- nBytes_lagIndex = nBytes_after - nBytes_before; /* bytes just added*/
-#endif
-
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_before = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
-#endif
/* Countour index */
silk_assert( psIndices->contourIndex >= 0 );
silk_assert( ( psIndices->contourIndex < 34 && psEncC->fs_kHz > 8 && psEncC->nb_subfr == 4 ) ||
@@ -181,18 +147,10 @@
( psIndices->contourIndex < 12 && psEncC->fs_kHz > 8 && psEncC->nb_subfr == 2 ) ||
( psIndices->contourIndex < 3 && psEncC->fs_kHz == 8 && psEncC->nb_subfr == 2 ) );
ec_enc_icdf( psRangeEnc, psIndices->contourIndex, psEncC->pitch_contour_iCDF, 8 );
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_after = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
- nBytes_contourIndex = nBytes_after - nBytes_before; /* bytes just added*/
-#endif
/********************/
/* Encode LTP gains */
/********************/
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_before = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
-#endif
-
/* PERIndex value */
silk_assert( psIndices->PERIndex >= 0 && psIndices->PERIndex < 3 );
ec_enc_icdf( psRangeEnc, psIndices->PERIndex, silk_LTP_per_index_iCDF, 8 );
@@ -211,30 +169,10 @@
ec_enc_icdf( psRangeEnc, psIndices->LTP_scaleIndex, silk_LTPscale_iCDF, 8 );
}
silk_assert( !condCoding || psIndices->LTP_scaleIndex == 0 );
-
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_after = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
- nBytes_LTP = nBytes_after - nBytes_before; /* bytes just added*/
-#endif
}
-#ifdef SAVE_ALL_INTERNAL_DATA
- else {
- /* Unvoiced speech*/
- nBytes_lagIndex = 0;
- nBytes_contourIndex = 0;
- nBytes_LTP = 0;
- }
- DEBUG_STORE_DATA( nBytes_lagIndex.dat, &nBytes_lagIndex, sizeof( opus_int ) );
- DEBUG_STORE_DATA( nBytes_contourIndex.dat, &nBytes_contourIndex, sizeof( opus_int ) );
- DEBUG_STORE_DATA( nBytes_LTP.dat, &nBytes_LTP, sizeof( opus_int ) );
-#endif
psEncC->ec_prevSignalType = psIndices->signalType;
-#ifdef SAVE_ALL_INTERNAL_DATA
- nBytes_before = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
-#endif
-
/***************/
/* Encode seed */
/***************/
diff --git a/silk/encode_pulses.c b/silk/encode_pulses.c
index 2fd6b50..32eb4cf 100644
--- a/silk/encode_pulses.c
+++ b/silk/encode_pulses.c
@@ -35,11 +35,11 @@
/* Encode quantization indices of excitation */
/*********************************************/
-static inline opus_int combine_and_check( /* return ok */
- opus_int *pulses_comb, /* O */
- const opus_int *pulses_in, /* I */
- opus_int max_pulses, /* I max value for sum of pulses */
- opus_int len /* I number of output values */
+static inline opus_int combine_and_check( /* return ok */
+ opus_int *pulses_comb, /* O */
+ const opus_int *pulses_in, /* I */
+ opus_int max_pulses, /* I max value for sum of pulses */
+ opus_int len /* I number of output values */
)
{
opus_int k, sum;
@@ -57,11 +57,11 @@
/* Encode quantization indices of excitation */
void silk_encode_pulses(
- ec_enc *psRangeEnc, /* I/O compressor data structure */
- const opus_int signalType, /* I Sigtype */
- const opus_int quantOffsetType, /* I quantOffsetType */
- opus_int8 pulses[], /* I quantization indices */
- const opus_int frame_length /* I Frame length */
+ ec_enc *psRangeEnc, /* I/O compressor data structure */
+ const opus_int signalType, /* I Signal type */
+ const opus_int quantOffsetType, /* I quantOffsetType */
+ opus_int8 pulses[], /* I quantization indices */
+ const opus_int frame_length /* I Frame length */
)
{
opus_int i, k, j, iter, bit, nLS, scale_down, RateLevelIndex = 0;
@@ -83,7 +83,7 @@
/* Calculate number of shell blocks */
silk_assert( 1 << LOG2_SHELL_CODEC_FRAME_LENGTH == SHELL_CODEC_FRAME_LENGTH );
iter = silk_RSHIFT( frame_length, LOG2_SHELL_CODEC_FRAME_LENGTH );
- if( iter * SHELL_CODEC_FRAME_LENGTH < frame_length ){
+ if( iter * SHELL_CODEC_FRAME_LENGTH < frame_length ) {
silk_assert( frame_length == 12 * 10 ); /* Make sure only happens for 10 ms @ 12 kHz */
iter++;
silk_memset( &pulses[ frame_length ], 0, SHELL_CODEC_FRAME_LENGTH * sizeof(opus_int8));
diff --git a/silk/fixed/LTP_analysis_filter_FIX.c b/silk/fixed/LTP_analysis_filter_FIX.c
index f31a550..aad7b6e 100644
--- a/silk/fixed/LTP_analysis_filter_FIX.c
+++ b/silk/fixed/LTP_analysis_filter_FIX.c
@@ -32,14 +32,14 @@
#include "main_FIX.h"
void silk_LTP_analysis_filter_FIX(
- opus_int16 *LTP_res, /* O: LTP residual signal of length MAX_NB_SUBFR * ( pre_length + subfr_length ) */
- const opus_int16 *x, /* I: Pointer to input signal with at least max( pitchL ) preceeding samples */
- const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ],/* I: LTP_ORDER LTP coefficients for each MAX_NB_SUBFR subframe */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I: Pitch lag, one for each subframe */
- const opus_int32 invGains_Q16[ MAX_NB_SUBFR ], /* I: Inverse quantization gains, one for each subframe */
- 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: Length of the preceeding samples starting at &x[0] for each subframe */
+ opus_int16 *LTP_res, /* O LTP residual signal of length MAX_NB_SUBFR * ( pre_length + subfr_length ) */
+ const opus_int16 *x, /* I Pointer to input signal with at least max( pitchL ) preceeding samples */
+ const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ],/* I LTP_ORDER LTP coefficients for each MAX_NB_SUBFR subframe */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag, one for each subframe */
+ const opus_int32 invGains_Q16[ MAX_NB_SUBFR ], /* I Inverse quantization gains, one for each subframe */
+ 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 Length of the preceeding samples starting at &x[0] for each subframe */
)
{
const opus_int16 *x_ptr, *x_lag_ptr;
diff --git a/silk/fixed/LTP_scale_ctrl_FIX.c b/silk/fixed/LTP_scale_ctrl_FIX.c
index dd4923f..0f347e3 100644
--- a/silk/fixed/LTP_scale_ctrl_FIX.c
+++ b/silk/fixed/LTP_scale_ctrl_FIX.c
@@ -31,10 +31,11 @@
#include "main_FIX.h"
+/* Calculation of LTP state scaling */
void silk_LTP_scale_ctrl_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O encoder state FIX */
- silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control FIX */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_encoder_state_FIX *psEnc, /* I/O encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
+ opus_int condCoding /* I The type of conditional coding to use */
)
{
opus_int round_loss;
diff --git a/silk/fixed/apply_sine_window_FIX.c b/silk/fixed/apply_sine_window_FIX.c
index 11a8545..4d4f096 100644
--- a/silk/fixed/apply_sine_window_FIX.c
+++ b/silk/fixed/apply_sine_window_FIX.c
@@ -48,10 +48,10 @@
};
void silk_apply_sine_window(
- opus_int16 px_win[], /* O Pointer to windowed signal */
- const opus_int16 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 */
+ opus_int16 px_win[], /* O Pointer to windowed signal */
+ const opus_int16 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 */
)
{
opus_int k, f_Q16, c_Q16;
diff --git a/silk/fixed/autocorr_FIX.c b/silk/fixed/autocorr_FIX.c
index 37ab66c..dd6c779 100644
--- a/silk/fixed/autocorr_FIX.c
+++ b/silk/fixed/autocorr_FIX.c
@@ -33,11 +33,11 @@
/* Compute autocorrelation */
void silk_autocorr(
- opus_int32 *results, /* O Result (length correlationCount) */
- opus_int *scale, /* O Scaling of the correlation vector */
- const opus_int16 *inputData, /* I Input data to correlate */
- const opus_int inputDataSize, /* I Length of input */
- const opus_int correlationCount /* I Number of correlation taps to compute */
+ opus_int32 *results, /* O Result (length correlationCount) */
+ opus_int *scale, /* O Scaling of the correlation vector */
+ const opus_int16 *inputData, /* I Input data to correlate */
+ const opus_int inputDataSize, /* I Length of input */
+ const opus_int correlationCount /* I Number of correlation taps to compute */
)
{
opus_int i, lz, nRightShifts, corrCount;
diff --git a/silk/fixed/burg_modified_FIX.c b/silk/fixed/burg_modified_FIX.c
index 0bf90e5..69d8761 100644
--- a/silk/fixed/burg_modified_FIX.c
+++ b/silk/fixed/burg_modified_FIX.c
@@ -31,7 +31,7 @@
#include "SigProc_FIX.h"
-#define MAX_FRAME_SIZE 384 /* subfr_length * nb_subfr = ( 0.005 * 16000 + 16 ) * 4 = 384*/
+#define MAX_FRAME_SIZE 384 /* subfr_length * nb_subfr = ( 0.005 * 16000 + 16 ) * 4 = 384 */
#define MAX_NB_SUBFR 4
#define QA 25
@@ -41,14 +41,14 @@
/* Compute reflection coefficients from input signal */
void silk_burg_modified(
- opus_int32 *res_nrg, /* O residual energy */
- opus_int *res_nrg_Q, /* O residual energy Q value */
- opus_int32 A_Q16[], /* O prediction coefficients (length order) */
- const opus_int16 x[], /* I input signal, length: nb_subfr * ( D + subfr_length ) */
- const opus_int subfr_length, /* I input signal subframe length (including D preceeding samples) */
- const opus_int nb_subfr, /* I number of subframes stacked in x */
- const opus_int32 WhiteNoiseFrac_Q32, /* I fraction added to zero-lag autocorrelation */
- const opus_int D /* I order */
+ opus_int32 *res_nrg, /* O Residual energy */
+ opus_int *res_nrg_Q, /* O Residual energy Q value */
+ opus_int32 A_Q16[], /* O Prediction coefficients (length order) */
+ const opus_int16 x[], /* I Input signal, length: nb_subfr * ( D + subfr_length ) */
+ const opus_int subfr_length, /* I Input signal subframe length (incl. D preceeding samples) */
+ const opus_int nb_subfr, /* I Number of subframes stacked in x */
+ const opus_int32 WhiteNoiseFrac_Q32, /* I Fraction added to zero-lag autocorrelation */
+ const opus_int D /* I Order */
)
{
opus_int k, n, s, lz, rshifts, rshifts_extra;
@@ -105,7 +105,7 @@
silk_memcpy( C_last_row, C_first_row, SILK_MAX_ORDER_LPC * sizeof( opus_int32 ) );
/* Initialize */
- CAb[ 0 ] = CAf[ 0 ] = C0 + silk_SMMUL( WhiteNoiseFrac_Q32, C0 ) + 1; /* Q(-rshifts)*/
+ CAb[ 0 ] = CAf[ 0 ] = C0 + silk_SMMUL( WhiteNoiseFrac_Q32, C0 ) + 1; /* Q(-rshifts)*/
for( n = 0; n < D; n++ ) {
/* Update first row of correlation matrix (without first element) */
@@ -115,70 +115,70 @@
if( rshifts > -2 ) {
for( s = 0; s < nb_subfr; s++ ) {
x_ptr = x + s * subfr_length;
- x1 = -silk_LSHIFT32( (opus_int32)x_ptr[ n ], 16 - rshifts ); /* Q(16-rshifts)*/
- x2 = -silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n - 1 ], 16 - rshifts ); /* Q(16-rshifts)*/
- tmp1 = silk_LSHIFT32( (opus_int32)x_ptr[ n ], QA - 16 ); /* Q(QA-16)*/
- tmp2 = silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n - 1 ], QA - 16 ); /* Q(QA-16)*/
+ x1 = -silk_LSHIFT32( (opus_int32)x_ptr[ n ], 16 - rshifts ); /* Q(16-rshifts)*/
+ x2 = -silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n - 1 ], 16 - rshifts ); /* Q(16-rshifts)*/
+ tmp1 = silk_LSHIFT32( (opus_int32)x_ptr[ n ], QA - 16 ); /* Q(QA-16)*/
+ tmp2 = silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n - 1 ], QA - 16 ); /* Q(QA-16)*/
for( k = 0; k < n; k++ ) {
C_first_row[ k ] = silk_SMLAWB( C_first_row[ k ], x1, x_ptr[ n - k - 1 ] ); /* Q( -rshifts )*/
C_last_row[ k ] = silk_SMLAWB( C_last_row[ k ], x2, x_ptr[ subfr_length - n + k ] ); /* Q( -rshifts )*/
Atmp_QA = Af_QA[ k ];
- tmp1 = silk_SMLAWB( tmp1, Atmp_QA, x_ptr[ n - k - 1 ] ); /* Q(QA-16)*/
- tmp2 = silk_SMLAWB( tmp2, Atmp_QA, x_ptr[ subfr_length - n + k ] ); /* Q(QA-16)*/
+ tmp1 = silk_SMLAWB( tmp1, Atmp_QA, x_ptr[ n - k - 1 ] ); /* Q(QA-16)*/
+ tmp2 = silk_SMLAWB( tmp2, Atmp_QA, x_ptr[ subfr_length - n + k ] ); /* Q(QA-16)*/
}
- tmp1 = silk_LSHIFT32( -tmp1, 32 - QA - rshifts ); /* Q(16-rshifts)*/
- tmp2 = silk_LSHIFT32( -tmp2, 32 - QA - rshifts ); /* Q(16-rshifts)*/
+ tmp1 = silk_LSHIFT32( -tmp1, 32 - QA - rshifts ); /* Q(16-rshifts)*/
+ tmp2 = silk_LSHIFT32( -tmp2, 32 - QA - rshifts ); /* Q(16-rshifts)*/
for( k = 0; k <= n; k++ ) {
- CAf[ k ] = silk_SMLAWB( CAf[ k ], tmp1, x_ptr[ n - k ] ); /* Q( -rshift )*/
- CAb[ k ] = silk_SMLAWB( CAb[ k ], tmp2, x_ptr[ subfr_length - n + k - 1 ] ); /* Q( -rshift )*/
+ CAf[ k ] = silk_SMLAWB( CAf[ k ], tmp1, x_ptr[ n - k ] ); /* Q( -rshift )*/
+ CAb[ k ] = silk_SMLAWB( CAb[ k ], tmp2, x_ptr[ subfr_length - n + k - 1 ] ); /* Q( -rshift )*/
}
}
} else {
for( s = 0; s < nb_subfr; s++ ) {
x_ptr = x + s * subfr_length;
- x1 = -silk_LSHIFT32( (opus_int32)x_ptr[ n ], -rshifts ); /* Q( -rshifts )*/
- x2 = -silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n - 1 ], -rshifts ); /* Q( -rshifts )*/
- tmp1 = silk_LSHIFT32( (opus_int32)x_ptr[ n ], 17 ); /* Q17*/
- tmp2 = silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n - 1 ], 17 ); /* Q17*/
+ x1 = -silk_LSHIFT32( (opus_int32)x_ptr[ n ], -rshifts ); /* Q( -rshifts )*/
+ x2 = -silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n - 1 ], -rshifts ); /* Q( -rshifts )*/
+ tmp1 = silk_LSHIFT32( (opus_int32)x_ptr[ n ], 17 ); /* Q17*/
+ tmp2 = silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n - 1 ], 17 ); /* Q17*/
for( k = 0; k < n; k++ ) {
C_first_row[ k ] = silk_MLA( C_first_row[ k ], x1, x_ptr[ n - k - 1 ] ); /* Q( -rshifts )*/
C_last_row[ k ] = silk_MLA( C_last_row[ k ], x2, x_ptr[ subfr_length - n + k ] ); /* Q( -rshifts )*/
- Atmp1 = silk_RSHIFT_ROUND( Af_QA[ k ], QA - 17 ); /* Q17*/
- tmp1 = silk_MLA( tmp1, x_ptr[ n - k - 1 ], Atmp1 ); /* Q17*/
- tmp2 = silk_MLA( tmp2, x_ptr[ subfr_length - n + k ], Atmp1 ); /* Q17*/
+ Atmp1 = silk_RSHIFT_ROUND( Af_QA[ k ], QA - 17 ); /* Q17*/
+ tmp1 = silk_MLA( tmp1, x_ptr[ n - k - 1 ], Atmp1 ); /* Q17*/
+ tmp2 = silk_MLA( tmp2, x_ptr[ subfr_length - n + k ], Atmp1 ); /* Q17*/
}
- tmp1 = -tmp1; /* Q17*/
- tmp2 = -tmp2; /* Q17*/
+ tmp1 = -tmp1; /* Q17*/
+ tmp2 = -tmp2; /* Q17*/
for( k = 0; k <= n; k++ ) {
CAf[ k ] = silk_SMLAWW( CAf[ k ], tmp1,
- silk_LSHIFT32( (opus_int32)x_ptr[ n - k ], -rshifts - 1 ) ); /* Q( -rshift )*/
+ silk_LSHIFT32( (opus_int32)x_ptr[ n - k ], -rshifts - 1 ) ); /* Q( -rshift )*/
CAb[ k ] = silk_SMLAWW( CAb[ k ], tmp2,
- silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n + k - 1 ], -rshifts - 1 ) );/* Q( -rshift )*/
+ silk_LSHIFT32( (opus_int32)x_ptr[ subfr_length - n + k - 1 ], -rshifts - 1 ) ); /* Q( -rshift )*/
}
}
}
/* Calculate nominator and denominator for the next order reflection (parcor) coefficient */
- tmp1 = C_first_row[ n ]; /* Q( -rshifts )*/
- tmp2 = C_last_row[ n ]; /* Q( -rshifts )*/
- num = 0; /* Q( -rshifts )*/
- nrg = silk_ADD32( CAb[ 0 ], CAf[ 0 ] ); /* Q( 1-rshifts )*/
+ tmp1 = C_first_row[ n ]; /* Q( -rshifts )*/
+ tmp2 = C_last_row[ n ]; /* Q( -rshifts )*/
+ num = 0; /* Q( -rshifts )*/
+ nrg = silk_ADD32( CAb[ 0 ], CAf[ 0 ] ); /* Q( 1-rshifts )*/
for( k = 0; k < n; k++ ) {
Atmp_QA = Af_QA[ k ];
lz = silk_CLZ32( silk_abs( Atmp_QA ) ) - 1;
lz = silk_min( 32 - QA, lz );
- Atmp1 = silk_LSHIFT32( Atmp_QA, lz ); /* Q( QA + lz )*/
+ Atmp1 = silk_LSHIFT32( Atmp_QA, lz ); /* Q( QA + lz )*/
- tmp1 = silk_ADD_LSHIFT32( tmp1, silk_SMMUL( C_last_row[ n - k - 1 ], Atmp1 ), 32 - QA - lz ); /* Q( -rshifts )*/
- tmp2 = silk_ADD_LSHIFT32( tmp2, silk_SMMUL( C_first_row[ n - k - 1 ], Atmp1 ), 32 - QA - lz ); /* Q( -rshifts )*/
- num = silk_ADD_LSHIFT32( num, silk_SMMUL( CAb[ n - k ], Atmp1 ), 32 - QA - lz ); /* Q( -rshifts )*/
+ tmp1 = silk_ADD_LSHIFT32( tmp1, silk_SMMUL( C_last_row[ n - k - 1 ], Atmp1 ), 32 - QA - lz ); /* Q( -rshifts )*/
+ tmp2 = silk_ADD_LSHIFT32( tmp2, silk_SMMUL( C_first_row[ n - k - 1 ], Atmp1 ), 32 - QA - lz ); /* Q( -rshifts )*/
+ num = silk_ADD_LSHIFT32( num, silk_SMMUL( CAb[ n - k ], Atmp1 ), 32 - QA - lz ); /* Q( -rshifts )*/
nrg = silk_ADD_LSHIFT32( nrg, silk_SMMUL( silk_ADD32( CAb[ k + 1 ], CAf[ k + 1 ] ),
Atmp1 ), 32 - QA - lz ); /* Q( 1-rshifts )*/
}
- CAf[ n + 1 ] = tmp1; /* Q( -rshifts )*/
- CAb[ n + 1 ] = tmp2; /* Q( -rshifts )*/
- num = silk_ADD32( num, tmp2 ); /* Q( -rshifts )*/
- num = silk_LSHIFT32( -num, 1 ); /* Q( 1-rshifts )*/
+ CAf[ n + 1 ] = tmp1; /* Q( -rshifts )*/
+ CAb[ n + 1 ] = tmp2; /* Q( -rshifts )*/
+ num = silk_ADD32( num, tmp2 ); /* Q( -rshifts )*/
+ num = silk_LSHIFT32( -num, 1 ); /* Q( 1-rshifts )*/
/* Calculate the next order reflection (parcor) coefficient */
if( silk_abs( num ) < nrg ) {
@@ -192,31 +192,31 @@
/* Update the AR coefficients */
for( k = 0; k < (n + 1) >> 1; k++ ) {
- tmp1 = Af_QA[ k ]; /* QA*/
- tmp2 = Af_QA[ n - k - 1 ]; /* QA*/
- Af_QA[ k ] = silk_ADD_LSHIFT32( tmp1, silk_SMMUL( tmp2, rc_Q31 ), 1 ); /* QA*/
- Af_QA[ n - k - 1 ] = silk_ADD_LSHIFT32( tmp2, silk_SMMUL( tmp1, rc_Q31 ), 1 ); /* QA*/
+ tmp1 = Af_QA[ k ]; /* QA*/
+ tmp2 = Af_QA[ n - k - 1 ]; /* QA*/
+ Af_QA[ k ] = silk_ADD_LSHIFT32( tmp1, silk_SMMUL( tmp2, rc_Q31 ), 1 ); /* QA*/
+ Af_QA[ n - k - 1 ] = silk_ADD_LSHIFT32( tmp2, silk_SMMUL( tmp1, rc_Q31 ), 1 ); /* QA*/
}
- Af_QA[ n ] = silk_RSHIFT32( rc_Q31, 31 - QA ); /* QA*/
+ Af_QA[ n ] = silk_RSHIFT32( rc_Q31, 31 - QA ); /* QA*/
/* Update C * Af and C * Ab */
for( k = 0; k <= n + 1; k++ ) {
- tmp1 = CAf[ k ]; /* Q( -rshifts )*/
- tmp2 = CAb[ n - k + 1 ]; /* Q( -rshifts )*/
- CAf[ k ] = silk_ADD_LSHIFT32( tmp1, silk_SMMUL( tmp2, rc_Q31 ), 1 ); /* Q( -rshifts )*/
- CAb[ n - k + 1 ] = silk_ADD_LSHIFT32( tmp2, silk_SMMUL( tmp1, rc_Q31 ), 1 ); /* Q( -rshifts )*/
+ tmp1 = CAf[ k ]; /* Q( -rshifts )*/
+ tmp2 = CAb[ n - k + 1 ]; /* Q( -rshifts )*/
+ CAf[ k ] = silk_ADD_LSHIFT32( tmp1, silk_SMMUL( tmp2, rc_Q31 ), 1 ); /* Q( -rshifts )*/
+ CAb[ n - k + 1 ] = silk_ADD_LSHIFT32( tmp2, silk_SMMUL( tmp1, rc_Q31 ), 1 ); /* Q( -rshifts )*/
}
}
/* Return residual energy */
- nrg = CAf[ 0 ]; /* Q( -rshifts )*/
- tmp1 = 1 << 16; /* Q16*/
+ nrg = CAf[ 0 ]; /* Q( -rshifts )*/
+ tmp1 = 1 << 16; /* Q16*/
for( k = 0; k < D; k++ ) {
- Atmp1 = silk_RSHIFT_ROUND( Af_QA[ k ], QA - 16 ); /* Q16*/
- nrg = silk_SMLAWW( nrg, CAf[ k + 1 ], Atmp1 ); /* Q( -rshifts )*/
- tmp1 = silk_SMLAWW( tmp1, Atmp1, Atmp1 ); /* Q16*/
+ Atmp1 = silk_RSHIFT_ROUND( Af_QA[ k ], QA - 16 ); /* Q16*/
+ nrg = silk_SMLAWW( nrg, CAf[ k + 1 ], Atmp1 ); /* Q( -rshifts )*/
+ tmp1 = silk_SMLAWW( tmp1, Atmp1, Atmp1 ); /* Q16*/
A_Q16[ k ] = -Atmp1;
}
- *res_nrg = silk_SMLAWW( nrg, silk_SMMUL( WhiteNoiseFrac_Q32, C0 ), -tmp1 ); /* Q( -rshifts )*/
+ *res_nrg = silk_SMLAWW( nrg, silk_SMMUL( WhiteNoiseFrac_Q32, C0 ), -tmp1 ); /* Q( -rshifts )*/
*res_nrg_Q = -rshifts;
}
diff --git a/silk/fixed/corrMatrix_FIX.c b/silk/fixed/corrMatrix_FIX.c
index 09994d0..c0d3109 100644
--- a/silk/fixed/corrMatrix_FIX.c
+++ b/silk/fixed/corrMatrix_FIX.c
@@ -37,12 +37,12 @@
/* Calculates correlation vector X'*t */
void silk_corrVector_FIX(
- const opus_int16 *x, /* I x vector [L + order - 1] used to form data matrix X */
- const opus_int16 *t, /* I target vector [L] */
- const opus_int L, /* I Length of vectors */
- const opus_int order, /* I Max lag for correlation */
- opus_int32 *Xt, /* O Pointer to X'*t correlation vector [order] */
- const opus_int rshifts /* I Right shifts of correlations */
+ const opus_int16 *x, /* I x vector [L + order - 1] used to form data matrix X */
+ const opus_int16 *t, /* I Target vector [L] */
+ const opus_int L, /* I Length of vectors */
+ const opus_int order, /* I Max lag for correlation */
+ opus_int32 *Xt, /* O Pointer to X'*t correlation vector [order] */
+ const opus_int rshifts /* I Right shifts of correlations */
)
{
opus_int lag, i;
@@ -73,12 +73,12 @@
/* Calculates correlation matrix X'*X */
void silk_corrMatrix_FIX(
- const opus_int16 *x, /* I x vector [L + order - 1] used to form data matrix X */
- const opus_int L, /* I Length of vectors */
- const opus_int order, /* I Max lag for correlation */
- const opus_int head_room, /* I Desired headroom */
- opus_int32 *XX, /* O Pointer to X'*X correlation matrix [ order x order ]*/
- opus_int *rshifts /* I/O Right shifts of correlations */
+ const opus_int16 *x, /* I x vector [L + order - 1] used to form data matrix X */
+ const opus_int L, /* I Length of vectors */
+ const opus_int order, /* I Max lag for correlation */
+ const opus_int head_room, /* I Desired headroom */
+ opus_int32 *XX, /* O Pointer to X'*X correlation matrix [ order x order ] */
+ opus_int *rshifts /* I/O Right shifts of correlations */
)
{
opus_int i, j, lag, rshifts_local, head_room_rshifts;
diff --git a/silk/fixed/encode_frame_FIX.c b/silk/fixed/encode_frame_FIX.c
index 1f27131..6d27916 100644
--- a/silk/fixed/encode_frame_FIX.c
+++ b/silk/fixed/encode_frame_FIX.c
@@ -34,22 +34,20 @@
/* Low Bitrate Redundancy (LBRR) encoding. Reuse all parameters but encode with lower bitrate */
static inline void silk_LBRR_encode_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Pointer to Silk FIX encoder state */
- silk_encoder_control_FIX *psEncCtrl, /* I/O Pointer to Silk FIX encoder control struct */
- const opus_int16 xfw[], /* I Input signal */
- opus_int condCoding /* I The type of conditional coding used so far for this frame */
+ silk_encoder_state_FIX *psEnc, /* I/O Pointer to Silk FIX encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O Pointer to Silk FIX encoder control struct */
+ const opus_int16 xfw[], /* I Input signal */
+ opus_int condCoding /* I The type of conditional coding used so far for this frame */
);
void silk_encode_do_VAD_FIX(
- silk_encoder_state_FIX *psEnc /* I/O Encoder state FIX */
+ silk_encoder_state_FIX *psEnc /* I/O Pointer to Silk FIX encoder state */
)
{
/****************************/
/* Voice Activity Detection */
/****************************/
-TIC(VAD)
silk_VAD_GetSA_Q8( &psEnc->sCmn, psEnc->sCmn.inputBuf + 1 );
-TOC(VAD)
/**************************************************/
/* Convert speech activity into VAD and DTX flags */
@@ -76,12 +74,12 @@
/* Encode frame */
/****************/
opus_int silk_encode_frame_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Encoder state FIX */
- 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 */
+ silk_encoder_state_FIX *psEnc, /* I/O Pointer to Silk FIX encoder state */
+ opus_int32 *pnBytesOut, /* O Pointer to 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 */
)
{
silk_encoder_control_FIX sEncCtrl;
@@ -99,10 +97,7 @@
opus_int8 LastGainIndex_copy2;
opus_uint8 ec_buf_copy[ 1275 ];
-TIC(ENCODE_FRAME)
-
- /* This is totally unnecessary but many compilers (including gcc) are too dumb
- to realise it */
+ /* This is totally unnecessary but many compilers (including gcc) are too dumb to realise it */
LastGainIndex_copy2 = nBits_lower = nBits_upper = gainMult_lower = gainMult_upper = 0;
psEnc->sCmn.indices.Seed = psEnc->sCmn.frameCounter++ & 3;
@@ -127,47 +122,34 @@
/*****************************************/
/* Find pitch lags, initial LPC analysis */
/*****************************************/
-TIC(FIND_PITCH)
silk_find_pitch_lags_FIX( psEnc, &sEncCtrl, res_pitch, x_frame );
-TOC(FIND_PITCH)
/************************/
/* Noise shape analysis */
/************************/
-TIC(NOISE_SHAPE_ANALYSIS)
silk_noise_shape_analysis_FIX( psEnc, &sEncCtrl, res_pitch_frame, x_frame );
-TOC(NOISE_SHAPE_ANALYSIS)
/***************************************************/
/* Find linear prediction coefficients (LPC + LTP) */
/***************************************************/
-TIC(FIND_PRED_COEF)
silk_find_pred_coefs_FIX( psEnc, &sEncCtrl, res_pitch, x_frame, condCoding );
-TOC(FIND_PRED_COEF)
/****************************************/
/* Process gains */
/****************************************/
-TIC(PROCESS_GAINS)
silk_process_gains_FIX( psEnc, &sEncCtrl, condCoding );
-TOC(PROCESS_GAINS)
/*****************************************/
/* Prefiltering for noise shaper */
/*****************************************/
-TIC(PREFILTER)
silk_prefilter_FIX( psEnc, &sEncCtrl, xfw, x_frame );
-TOC(PREFILTER)
/****************************************/
/* Low Bitrate Redundant Encoding */
/****************************************/
-TIC(LBRR)
silk_LBRR_encode_FIX( psEnc, &sEncCtrl, xfw, condCoding );
-TOC(LBRR)
if( psEnc->sCmn.prefillFlag ) {
-TIC(NSQ)
if( psEnc->sCmn.nStatesDelayedDecision > 1 || psEnc->sCmn.warping_Q16 > 0 ) {
silk_NSQ_del_dec( &psEnc->sCmn, &psEnc->sCmn.sNSQ, &psEnc->sCmn.indices, xfw, psEnc->sCmn.pulses,
sEncCtrl.PredCoef_Q12[ 0 ], sEncCtrl.LTPCoef_Q14, sEncCtrl.AR2_Q13, sEncCtrl.HarmShapeGain_Q14,
@@ -177,7 +159,6 @@
sEncCtrl.PredCoef_Q12[ 0 ], sEncCtrl.LTPCoef_Q14, sEncCtrl.AR2_Q13, sEncCtrl.HarmShapeGain_Q14,
sEncCtrl.Tilt_Q14, sEncCtrl.LF_shp_Q14, sEncCtrl.Gains_Q16, sEncCtrl.pitchL, sEncCtrl.Lambda_Q10, sEncCtrl.LTP_scale_Q14 );
}
-TOC(NSQ)
} else {
/* Loop over quantizer and entropy coding to control bitrate */
maxIter = 5;
@@ -211,7 +192,6 @@
/*****************************************/
/* Noise shaping quantization */
/*****************************************/
-TIC(NSQ)
if( psEnc->sCmn.nStatesDelayedDecision > 1 || psEnc->sCmn.warping_Q16 > 0 ) {
silk_NSQ_del_dec( &psEnc->sCmn, &psEnc->sCmn.sNSQ, &psEnc->sCmn.indices, xfw, psEnc->sCmn.pulses,
sEncCtrl.PredCoef_Q12[ 0 ], sEncCtrl.LTPCoef_Q14, sEncCtrl.AR2_Q13, sEncCtrl.HarmShapeGain_Q14,
@@ -221,22 +201,17 @@
sEncCtrl.PredCoef_Q12[ 0 ], sEncCtrl.LTPCoef_Q14, sEncCtrl.AR2_Q13, sEncCtrl.HarmShapeGain_Q14,
sEncCtrl.Tilt_Q14, sEncCtrl.LF_shp_Q14, sEncCtrl.Gains_Q16, sEncCtrl.pitchL, sEncCtrl.Lambda_Q10, sEncCtrl.LTP_scale_Q14 );
}
-TOC(NSQ)
/****************************************/
/* Encode Parameters */
/****************************************/
-TIC(ENCODE_PARAMS)
silk_encode_indices( &psEnc->sCmn, psRangeEnc, psEnc->sCmn.nFramesEncoded, 0, condCoding );
-TOC(ENCODE_PARAMS)
/****************************************/
/* Encode Excitation Signal */
/****************************************/
-TIC(ENCODE_PULSES)
silk_encode_pulses( psRangeEnc, psEnc->sCmn.indices.signalType, psEnc->sCmn.indices.quantOffsetType,
psEnc->sCmn.pulses, psEnc->sCmn.frame_length );
-TOC(ENCODE_PULSES)
nBits = ec_tell( psRangeEnc );
@@ -344,59 +319,15 @@
/* Payload size */
*pnBytesOut = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
- TOC(ENCODE_FRAME)
-
-#ifdef SAVE_ALL_INTERNAL_DATA
- {
- silk_float tmp[ MAX_NB_SUBFR * LTP_ORDER ];
- int i;
- DEBUG_STORE_DATA( xf.dat, x_frame + LA_SHAPE_MS * psEnc->sCmn.fs_kHz, psEnc->sCmn.frame_length * sizeof( opus_int16 ) );
- DEBUG_STORE_DATA( xfw.dat, xfw, psEnc->sCmn.frame_length * sizeof( opus_int16 ) );
- DEBUG_STORE_DATA( pitchL.dat, sEncCtrl.pitchL, psEnc->sCmn.nb_subfr * sizeof( opus_int ) );
- for( i = 0; i < psEnc->sCmn.nb_subfr * LTP_ORDER; i++ ) {
- tmp[ i ] = (silk_float)sEncCtrl.LTPCoef_Q14[ i ] / 16384.0f;
- }
- DEBUG_STORE_DATA( pitchG_quantized.dat, tmp, psEnc->sCmn.nb_subfr * LTP_ORDER * sizeof( silk_float ) );
- for( i = 0; i <psEnc->sCmn.predictLPCOrder; i++ ) {
- tmp[ i ] = (silk_float)sEncCtrl.PredCoef_Q12[ 1 ][ i ] / 4096.0f;
- }
- DEBUG_STORE_DATA( PredCoef.dat, tmp, psEnc->sCmn.predictLPCOrder * sizeof( silk_float ) );
-
- tmp[ 0 ] = (silk_float)sEncCtrl.LTPredCodGain_Q7 / 128.0f;
- DEBUG_STORE_DATA( LTPredCodGain.dat, tmp, sizeof( silk_float ) );
- tmp[ 0 ] = (silk_float)psEnc->LTPCorr_Q15 / 32768.0f;
- DEBUG_STORE_DATA( LTPcorr.dat, tmp, sizeof( silk_float ) );
- tmp[ 0 ] = (silk_float)psEnc->sCmn.input_tilt_Q15 / 32768.0f;
- DEBUG_STORE_DATA( tilt.dat, tmp, sizeof( silk_float ) );
- for( i = 0; i < psEnc->sCmn.nb_subfr; i++ ) {
- tmp[ i ] = (silk_float)sEncCtrl.Gains_Q16[ i ] / 65536.0f;
- }
- DEBUG_STORE_DATA( gains.dat, tmp, psEnc->sCmn.nb_subfr * sizeof( silk_float ) );
- DEBUG_STORE_DATA( gains_indices.dat, &psEnc->sCmn.indices.GainsIndices, psEnc->sCmn.nb_subfr * sizeof( opus_int ) );
- tmp[ 0 ] = (silk_float)sEncCtrl.current_SNR_dB_Q7 / 128.0f;
- DEBUG_STORE_DATA( current_SNR_db.dat, tmp, sizeof( silk_float ) );
- DEBUG_STORE_DATA( quantOffsetType.dat, &psEnc->sCmn.indices.quantOffsetType, sizeof( opus_int ) );
- tmp[ 0 ] = (silk_float)psEnc->sCmn.speech_activity_Q8 / 256.0f;
- DEBUG_STORE_DATA( speech_activity.dat, tmp, sizeof( silk_float ) );
- for( i = 0; i < VAD_N_BANDS; i++ ) {
- tmp[ i ] = (silk_float)psEnc->sCmn.input_quality_bands_Q15[ i ] / 32768.0f;
- }
- DEBUG_STORE_DATA( input_quality_bands.dat, tmp, VAD_N_BANDS * sizeof( silk_float ) );
- DEBUG_STORE_DATA( signalType.dat, &psEnc->sCmn.indices.signalType, sizeof( opus_int8) );
- DEBUG_STORE_DATA( lag_index.dat, &psEnc->sCmn.indices.lagIndex, sizeof( opus_int16 ) );
- DEBUG_STORE_DATA( contour_index.dat, &psEnc->sCmn.indices.contourIndex, sizeof( opus_int8 ) );
- DEBUG_STORE_DATA( per_index.dat, &psEnc->sCmn.indices.PERIndex, sizeof( opus_int8) );
- }
-#endif
return ret;
}
/* Low-Bitrate Redundancy (LBRR) encoding. Reuse all parameters but encode excitation at lower bitrate */
-void silk_LBRR_encode_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Pointer to Silk FIX encoder state */
- silk_encoder_control_FIX *psEncCtrl, /* I/O Pointer to Silk FIX encoder control struct */
- const opus_int16 xfw[], /* I Input signal */
- opus_int condCoding /* I The type of conditional coding used so far for this frame */
+static inline void silk_LBRR_encode_FIX(
+ silk_encoder_state_FIX *psEnc, /* I/O Pointer to Silk FIX encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O Pointer to Silk FIX encoder control struct */
+ const opus_int16 xfw[], /* I Input signal */
+ opus_int condCoding /* I The type of conditional coding used so far for this frame */
)
{
opus_int32 TempGains_Q16[ MAX_NB_SUBFR ];
diff --git a/silk/fixed/find_LPC_FIX.c b/silk/fixed/find_LPC_FIX.c
index aab4d0f..c11826e 100644
--- a/silk/fixed/find_LPC_FIX.c
+++ b/silk/fixed/find_LPC_FIX.c
@@ -34,15 +34,15 @@
/* Finds LPC vector from correlations, and converts to NLSF */
void silk_find_LPC_FIX(
- opus_int16 NLSF_Q15[], /* O NLSFs */
- opus_int8 *interpIndex, /* O NLSF interpolation index, only used for NLSF interpolation */
- const opus_int16 prev_NLSFq_Q15[], /* I previous NLSFs, only used for NLSF interpolation */
- const opus_int useInterpNLSFs, /* I Flag */
- const opus_int firstFrameAfterReset, /* I Flag */
- const opus_int LPC_order, /* I LPC order */
- const opus_int16 x[], /* I Input signal */
- const opus_int subfr_length, /* I Input signal subframe length including preceeding samples */
- const opus_int nb_subfr /* I: Number of subframes */
+ opus_int16 NLSF_Q15[], /* O NLSFs */
+ opus_int8 *interpIndex, /* O NLSF interpolation index, only used for NLSF interpolation */
+ const opus_int16 prev_NLSFq_Q15[], /* I previous NLSFs, only used for NLSF interpolation */
+ const opus_int useInterpNLSFs, /* I Flag */
+ const opus_int firstFrameAfterReset, /* I Flag */
+ const opus_int LPC_order, /* I LPC order */
+ const opus_int16 x[], /* I Input signal */
+ const opus_int subfr_length, /* I Input signal subframe length including preceeding samples */
+ const opus_int nb_subfr /* I Number of subframes */
)
{
opus_int k;
diff --git a/silk/fixed/find_LTP_FIX.c b/silk/fixed/find_LTP_FIX.c
index 2de290d..daa3fef 100644
--- a/silk/fixed/find_LTP_FIX.c
+++ b/silk/fixed/find_LTP_FIX.c
@@ -32,7 +32,7 @@
#include "main_FIX.h"
#include "tuning_parameters.h"
-/* Head room for correlations */
+/* Head room for correlations */
#define LTP_CORRS_HEAD_ROOM 2
void silk_fit_LTP(
@@ -41,16 +41,16 @@
);
void silk_find_LTP_FIX(
- opus_int16 b_Q14[ MAX_NB_SUBFR * LTP_ORDER ], /* O LTP coefs */
- opus_int32 WLTP[ MAX_NB_SUBFR * LTP_ORDER * LTP_ORDER ], /* O Weight for LTP quantization */
- opus_int *LTPredCodGain_Q7, /* O LTP coding gain */
- const opus_int16 r_lpc[] , /* I residual signal after LPC signal + state for first 10 ms */
- const opus_int lag[ MAX_NB_SUBFR ], /* I LTP lags */
- const opus_int32 Wght_Q15[ 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 */
- opus_int corr_rshifts[ MAX_NB_SUBFR ] /* O right shifts applied to correlations */
+ opus_int16 b_Q14[ MAX_NB_SUBFR * LTP_ORDER ], /* O LTP coefs */
+ opus_int32 WLTP[ MAX_NB_SUBFR * LTP_ORDER * LTP_ORDER ], /* O Weight for LTP quantization */
+ opus_int *LTPredCodGain_Q7, /* O LTP coding gain */
+ const opus_int16 r_lpc[], /* I residual signal after LPC signal + state for first 10 ms */
+ const opus_int lag[ MAX_NB_SUBFR ], /* I LTP lags */
+ const opus_int32 Wght_Q15[ 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 */
+ opus_int corr_rshifts[ MAX_NB_SUBFR ] /* O right shifts applied to correlations */
)
{
opus_int i, k, lshift;
@@ -112,9 +112,9 @@
denom32 = silk_LSHIFT_SAT32( silk_SMULWB( nrg[ k ], Wght_Q15[ k ] ), 1 + extra_shifts ) + /* Q( -corr_rshifts[ k ] + extra_shifts ) */
silk_RSHIFT( silk_SMULWB( subfr_length, 655 ), corr_rshifts[ k ] - extra_shifts ); /* Q( -corr_rshifts[ k ] + extra_shifts ) */
denom32 = silk_max( denom32, 1 );
- silk_assert( ((opus_int64)Wght_Q15[ k ] << 16 ) < silk_int32_MAX ); /* Wght always < 0.5 in Q0 */
- temp32 = silk_DIV32( silk_LSHIFT( ( opus_int32 )Wght_Q15[ k ], 16 ), denom32 ); /* Q( 15 + 16 + corr_rshifts[k] - extra_shifts ) */
- temp32 = silk_RSHIFT( temp32, 31 + corr_rshifts[ k ] - extra_shifts - 26 ); /* Q26 */
+ silk_assert( ((opus_int64)Wght_Q15[ k ] << 16 ) < silk_int32_MAX ); /* Wght always < 0.5 in Q0 */
+ temp32 = silk_DIV32( silk_LSHIFT( ( opus_int32 )Wght_Q15[ k ], 16 ), denom32 ); /* Q( 15 + 16 + corr_rshifts[k] - extra_shifts ) */
+ temp32 = silk_RSHIFT( temp32, 31 + corr_rshifts[ k ] - extra_shifts - 26 ); /* Q26 */
/* Limit temp such that the below scaling never wraps around */
WLTP_max = 0;
@@ -148,8 +148,8 @@
LPC_res_nrg = 0;
silk_assert( LTP_CORRS_HEAD_ROOM >= 2 ); /* Check that no overflow will happen when adding */
for( k = 0; k < nb_subfr; k++ ) {
- LPC_res_nrg = silk_ADD32( LPC_res_nrg, silk_RSHIFT( silk_ADD32( silk_SMULWB( rr[ k ], Wght_Q15[ k ] ), 1 ), 1 + ( maxRshifts - corr_rshifts[ k ] ) ) ); /* Q( -maxRshifts ) */
- LPC_LTP_res_nrg = silk_ADD32( LPC_LTP_res_nrg, silk_RSHIFT( silk_ADD32( silk_SMULWB( nrg[ k ], Wght_Q15[ k ] ), 1 ), 1 + ( maxRshifts - corr_rshifts[ k ] ) ) ); /* Q( -maxRshifts ) */
+ LPC_res_nrg = silk_ADD32( LPC_res_nrg, silk_RSHIFT( silk_ADD32( silk_SMULWB( rr[ k ], Wght_Q15[ k ] ), 1 ), 1 + ( maxRshifts - corr_rshifts[ k ] ) ) ); /* Q( -maxRshifts ) */
+ LPC_LTP_res_nrg = silk_ADD32( LPC_LTP_res_nrg, silk_RSHIFT( silk_ADD32( silk_SMULWB( nrg[ k ], Wght_Q15[ k ] ), 1 ), 1 + ( maxRshifts - corr_rshifts[ k ] ) ) ); /* Q( -maxRshifts ) */
}
LPC_LTP_res_nrg = silk_max( LPC_LTP_res_nrg, 1 ); /* avoid division by zero */
@@ -198,7 +198,7 @@
wd = 0;
for( k = 0; k < nb_subfr; k++ ) {
/* w has at least 2 bits of headroom so no overflow should happen */
- temp32 = silk_ADD32( temp32, silk_RSHIFT( w[ k ], maxRshifts_wxtra - corr_rshifts[ k ] ) ); /* Q( 18 - maxRshifts_wxtra ) */
+ temp32 = silk_ADD32( temp32, silk_RSHIFT( w[ k ], maxRshifts_wxtra - corr_rshifts[ k ] ) ); /* Q( 18 - maxRshifts_wxtra ) */
wd = silk_ADD32( wd, silk_LSHIFT( silk_SMULWW( silk_RSHIFT( w[ k ], maxRshifts_wxtra - corr_rshifts[ k ] ), d_Q14[ k ] ), 2 ) ); /* Q( 18 - maxRshifts_wxtra ) */
}
m_Q12 = silk_DIV32_varQ( wd, temp32, 12 );
@@ -215,7 +215,7 @@
g_Q26 = silk_MUL(
silk_DIV32(
SILK_FIX_CONST( LTP_SMOOTHING, 26 ),
- silk_RSHIFT( SILK_FIX_CONST( LTP_SMOOTHING, 26 ), 10 ) + temp32 ), /* Q10 */
+ silk_RSHIFT( SILK_FIX_CONST( LTP_SMOOTHING, 26 ), 10 ) + temp32 ), /* Q10 */
silk_LSHIFT_SAT32( silk_SUB_SAT32( ( opus_int32 )m_Q12, silk_RSHIFT( d_Q14[ k ], 2 ) ), 4 ) ); /* Q16 */
temp32 = 0;
@@ -229,7 +229,6 @@
}
b_Q14_ptr += LTP_ORDER;
}
-TOC(find_LTP_FIX)
}
void silk_fit_LTP(
diff --git a/silk/fixed/find_pitch_lags_FIX.c b/silk/fixed/find_pitch_lags_FIX.c
index c40efe9..0f41158 100644
--- a/silk/fixed/find_pitch_lags_FIX.c
+++ b/silk/fixed/find_pitch_lags_FIX.c
@@ -34,10 +34,10 @@
/* Find pitch lags */
void silk_find_pitch_lags_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O encoder state */
- silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
- opus_int16 res[], /* O residual */
- const opus_int16 x[] /* I Speech signal */
+ silk_encoder_state_FIX *psEnc, /* I/O encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
+ opus_int16 res[], /* O residual */
+ const opus_int16 x[] /* I Speech signal */
)
{
opus_int buf_len, i, scale;
diff --git a/silk/fixed/find_pred_coefs_FIX.c b/silk/fixed/find_pred_coefs_FIX.c
index 2cefd90..27e0c2c 100644
--- a/silk/fixed/find_pred_coefs_FIX.c
+++ b/silk/fixed/find_pred_coefs_FIX.c
@@ -32,11 +32,11 @@
#include "main_FIX.h"
void silk_find_pred_coefs_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O encoder state */
- silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
- const opus_int16 res_pitch[], /* I Residual from pitch analysis */
- const opus_int16 x[], /* I Speech signal */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_encoder_state_FIX *psEnc, /* I/O encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
+ const opus_int16 res_pitch[], /* I Residual from pitch analysis */
+ const opus_int16 x[], /* I Speech signal */
+ opus_int condCoding /* I The type of conditional coding to use */
)
{
opus_int i;
@@ -112,16 +112,12 @@
}
/* LPC_in_pre contains the LTP-filtered input for voiced, and the unfiltered input for unvoiced */
- TIC(FIND_LPC)
silk_find_LPC_FIX( NLSF_Q15, &psEnc->sCmn.indices.NLSFInterpCoef_Q2, psEnc->sCmn.prev_NLSFq_Q15,
psEnc->sCmn.useInterpolatedNLSFs, psEnc->sCmn.first_frame_after_reset, psEnc->sCmn.predictLPCOrder,
LPC_in_pre, psEnc->sCmn.subfr_length + psEnc->sCmn.predictLPCOrder, psEnc->sCmn.nb_subfr );
- TOC(FIND_LPC)
/* Quantize LSFs */
- TIC(PROCESS_LSFS)
silk_process_NLSFs( &psEnc->sCmn, psEncCtrl->PredCoef_Q12, NLSF_Q15, psEnc->sCmn.prev_NLSFq_Q15 );
- TOC(PROCESS_LSFS)
/* Calculate residual energy using quantized LPC coefficients */
silk_residual_energy_FIX( psEncCtrl->ResNrg, psEncCtrl->ResNrgQ, LPC_in_pre, psEncCtrl->PredCoef_Q12, local_gains,
diff --git a/silk/fixed/k2a_FIX.c b/silk/fixed/k2a_FIX.c
index 98c6bf2..9ccdc41 100644
--- a/silk/fixed/k2a_FIX.c
+++ b/silk/fixed/k2a_FIX.c
@@ -33,9 +33,9 @@
/* Step up function, converts reflection coefficients to prediction coefficients */
void silk_k2a(
- opus_int32 *A_Q24, /* O: Prediction coefficients [order] Q24 */
- const opus_int16 *rc_Q15, /* I: Reflection coefficients [order] Q15 */
- const opus_int32 order /* I: Prediction order */
+ opus_int32 *A_Q24, /* O Prediction coefficients [order] Q24 */
+ const opus_int16 *rc_Q15, /* I Reflection coefficients [order] Q15 */
+ const opus_int32 order /* I Prediction order */
)
{
opus_int k, n;
diff --git a/silk/fixed/k2a_Q16_FIX.c b/silk/fixed/k2a_Q16_FIX.c
index 962e230..3f39d5f 100644
--- a/silk/fixed/k2a_Q16_FIX.c
+++ b/silk/fixed/k2a_Q16_FIX.c
@@ -33,9 +33,9 @@
/* Step up function, converts reflection coefficients to prediction coefficients */
void silk_k2a_Q16(
- opus_int32 *A_Q24, /* O: Prediction coefficients [order] Q24 */
- const opus_int32 *rc_Q16, /* I: Reflection coefficients [order] Q16 */
- const opus_int32 order /* I: Prediction order */
+ opus_int32 *A_Q24, /* O Prediction coefficients [order] Q24 */
+ const opus_int32 *rc_Q16, /* I Reflection coefficients [order] Q16 */
+ const opus_int32 order /* I Prediction order */
)
{
opus_int k, n;
diff --git a/silk/fixed/main_FIX.h b/silk/fixed/main_FIX.h
index f4b0270..30782e1 100644
--- a/silk/fixed/main_FIX.h
+++ b/silk/fixed/main_FIX.h
@@ -53,47 +53,47 @@
/* 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 */
+ silk_encoder_state_Fxx state_Fxx[] /* I/O Encoder states */
);
/* Encoder main function */
void silk_encode_do_VAD_FIX(
- silk_encoder_state_FIX *psEnc /* I/O Pointer to Silk FIX encoder state */
+ silk_encoder_state_FIX *psEnc /* I/O Pointer to Silk FIX encoder state */
);
/* Encoder main function */
opus_int silk_encode_frame_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Pointer to Silk FIX encoder state */
- opus_int32 *pnBytesOut, /* O Pointer to 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 */
+ silk_encoder_state_FIX *psEnc, /* I/O Pointer to Silk FIX encoder state */
+ opus_int32 *pnBytesOut, /* O Pointer to 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_FIX *psEnc /* I/O Pointer to Silk FIX encoder state */
+ silk_encoder_state_Fxx *psEnc /* I/O Pointer to Silk FIX encoder state */
);
/* Control the Silk encoder */
opus_int silk_control_encoder(
- silk_encoder_state_FIX *psEnc, /* I/O Pointer to Silk encoder state */
- 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
+ silk_encoder_state_Fxx *psEnc, /* I/O Pointer to Silk encoder state */
+ 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_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Encoder state */
- const silk_encoder_control_FIX *psEncCtrl, /* I Encoder control */
- opus_int16 xw[], /* O Weighted signal */
- const opus_int16 x[] /* I Speech signal */
+ silk_encoder_state_FIX *psEnc, /* I/O Encoder state */
+ const silk_encoder_control_FIX *psEncCtrl, /* I Encoder control */
+ opus_int16 xw[], /* O Weighted signal */
+ const opus_int16 x[] /* I Speech signal */
);
/**************************/
@@ -101,27 +101,27 @@
/**************************/
/* Compute noise shaping coefficients and initial gain values */
void silk_noise_shape_analysis_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Encoder state FIX */
- silk_encoder_control_FIX *psEncCtrl, /* I/O Encoder control FIX */
- const opus_int16 *pitch_res, /* I LPC residual from pitch analysis */
- const opus_int16 *x /* I Input signal [ frame_length + la_shape ] */
+ silk_encoder_state_FIX *psEnc, /* I/O Encoder state FIX */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O Encoder control FIX */
+ const opus_int16 *pitch_res, /* I LPC residual from pitch analysis */
+ const opus_int16 *x /* I Input signal [ frame_length + la_shape ] */
);
/* Autocorrelations for a warped frequency axis */
void silk_warped_autocorrelation_FIX(
- opus_int32 *corr, /* O Result [order + 1] */
- opus_int *scale, /* O Scaling of the correlation vector */
- const opus_int16 *input, /* I Input data to correlate */
- const opus_int warping_Q16, /* I Warping coefficient */
- const opus_int length, /* I Length of input */
- const opus_int order /* I Correlation order (even) */
+ opus_int32 *corr, /* O Result [order + 1] */
+ opus_int *scale, /* O Scaling of the correlation vector */
+ const opus_int16 *input, /* I Input data to correlate */
+ const opus_int warping_Q16, /* 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_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O encoder state */
- silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_encoder_state_FIX *psEnc, /* I/O encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
+ opus_int condCoding /* I The type of conditional coding to use */
);
/**********************************************/
@@ -129,87 +129,87 @@
/**********************************************/
/* Find pitch lags */
void silk_find_pitch_lags_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O encoder state */
- silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
- opus_int16 res[], /* O residual */
- const opus_int16 x[] /* I Speech signal */
+ silk_encoder_state_FIX *psEnc, /* I/O encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
+ opus_int16 res[], /* O residual */
+ const opus_int16 x[] /* I Speech signal */
);
/* Find LPC and LTP coefficients */
void silk_find_pred_coefs_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O encoder state */
- silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
- const opus_int16 res_pitch[], /* I Residual from pitch analysis */
- const opus_int16 x[], /* I Speech signal */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_encoder_state_FIX *psEnc, /* I/O encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O encoder control */
+ const opus_int16 res_pitch[], /* I Residual from pitch analysis */
+ const opus_int16 x[], /* I Speech signal */
+ opus_int condCoding /* I The type of conditional coding to use */
);
/* LPC analysis */
void silk_find_LPC_FIX(
- opus_int16 NLSF_Q15[], /* O NLSFs */
- opus_int8 *interpIndex, /* O NLSF interpolation index, only used for NLSF interpolation */
- const opus_int16 prev_NLSFq_Q15[], /* I previous NLSFs, only used for NLSF interpolation */
- const opus_int useInterpNLSFs, /* I Flag */
- const opus_int firstFrameAfterReset, /* I Flag */
- const opus_int LPC_order, /* I LPC order */
- const opus_int16 x[], /* I Input signal */
- const opus_int subfr_length, /* I Input signal subframe length including preceeding samples */
- const opus_int nb_subfr /* I: Number of subframes */
+ opus_int16 NLSF_Q15[], /* O NLSFs */
+ opus_int8 *interpIndex, /* O NLSF interpolation index, only used for NLSF interpolation */
+ const opus_int16 prev_NLSFq_Q15[], /* I previous NLSFs, only used for NLSF interpolation */
+ const opus_int useInterpNLSFs, /* I Flag */
+ const opus_int firstFrameAfterReset, /* I Flag */
+ const opus_int LPC_order, /* I LPC order */
+ const opus_int16 x[], /* I Input signal */
+ const opus_int subfr_length, /* I Input signal subframe length including preceeding samples */
+ const opus_int nb_subfr /* I Number of subframes */
);
/* LTP analysis */
void silk_find_LTP_FIX(
- opus_int16 b_Q14[ MAX_NB_SUBFR * LTP_ORDER ], /* O LTP coefs */
- opus_int32 WLTP[ MAX_NB_SUBFR * LTP_ORDER * LTP_ORDER ], /* O Weight for LTP quantization */
- opus_int *LTPredCodGain_Q7, /* O LTP coding gain */
- const opus_int16 r_lpc[], /* I residual signal after LPC signal + state for first 10 ms */
- const opus_int lag[ MAX_NB_SUBFR ], /* I LTP lags */
- const opus_int32 Wght_Q15[ 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 */
- opus_int corr_rshifts[ MAX_NB_SUBFR ] /* O right shifts applied to correlations */
+ opus_int16 b_Q14[ MAX_NB_SUBFR * LTP_ORDER ], /* O LTP coefs */
+ opus_int32 WLTP[ MAX_NB_SUBFR * LTP_ORDER * LTP_ORDER ], /* O Weight for LTP quantization */
+ opus_int *LTPredCodGain_Q7, /* O LTP coding gain */
+ const opus_int16 r_lpc[], /* I residual signal after LPC signal + state for first 10 ms */
+ const opus_int lag[ MAX_NB_SUBFR ], /* I LTP lags */
+ const opus_int32 Wght_Q15[ 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 */
+ opus_int corr_rshifts[ MAX_NB_SUBFR ] /* O right shifts applied to correlations */
);
void silk_LTP_analysis_filter_FIX(
- opus_int16 *LTP_res, /* O: LTP residual signal of length MAX_NB_SUBFR * ( pre_length + subfr_length ) */
- const opus_int16 *x, /* I: Pointer to input signal with at least max( pitchL ) preceeding samples */
- const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ],/* I: LTP_ORDER LTP coefficients for each MAX_NB_SUBFR subframe */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I: Pitch lag, one for each subframe */
- const opus_int32 invGains_Q16[ MAX_NB_SUBFR ], /* I: Inverse quantization gains, one for each subframe */
- 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: Length of the preceeding samples starting at &x[0] for each subframe */
+ opus_int16 *LTP_res, /* O LTP residual signal of length MAX_NB_SUBFR * ( pre_length + subfr_length ) */
+ const opus_int16 *x, /* I Pointer to input signal with at least max( pitchL ) preceeding samples */
+ const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ],/* I LTP_ORDER LTP coefficients for each MAX_NB_SUBFR subframe */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lag, one for each subframe */
+ const opus_int32 invGains_Q16[ MAX_NB_SUBFR ], /* I Inverse quantization gains, one for each subframe */
+ 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 Length of the preceeding samples starting at &x[0] for each subframe */
);
/* Calculates residual energies of input subframes where all subframes have LPC_order */
/* of preceeding samples */
void silk_residual_energy_FIX(
- opus_int32 nrgs[ MAX_NB_SUBFR ], /* O Residual energy per subframe */
- opus_int nrgsQ[ MAX_NB_SUBFR ], /* O Q value per subframe */
- const opus_int16 x[], /* I Input signal */
- opus_int16 a_Q12[ 2 ][ MAX_LPC_ORDER ], /* I AR coefs for each frame half */
- const opus_int32 gains[ MAX_NB_SUBFR ], /* 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 */
+ opus_int32 nrgs[ MAX_NB_SUBFR ], /* O Residual energy per subframe */
+ opus_int nrgsQ[ MAX_NB_SUBFR ], /* O Q value per subframe */
+ const opus_int16 x[], /* I Input signal */
+ opus_int16 a_Q12[ 2 ][ MAX_LPC_ORDER ], /* I AR coefs for each frame half */
+ const opus_int32 gains[ MAX_NB_SUBFR ], /* 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 */
);
/* Residual energy: nrg = wxx - 2 * wXx * c + c' * wXX * c */
opus_int32 silk_residual_energy16_covar_FIX(
- const opus_int16 *c, /* I Prediction vector */
- const opus_int32 *wXX, /* I Correlation matrix */
- const opus_int32 *wXx, /* I Correlation vector */
- opus_int32 wxx, /* I Signal energy */
- opus_int D, /* I Dimension */
- opus_int cQ /* I Q value for c vector 0 - 15 */
+ const opus_int16 *c, /* I Prediction vector */
+ const opus_int32 *wXX, /* I Correlation matrix */
+ const opus_int32 *wXx, /* I Correlation vector */
+ opus_int32 wxx, /* I Signal energy */
+ opus_int D, /* I Dimension */
+ opus_int cQ /* I Q value for c vector 0 - 15 */
);
/* Processing of gains */
void silk_process_gains_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Encoder state */
- silk_encoder_control_FIX *psEncCtrl, /* I/O Encoder control */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_encoder_state_FIX *psEnc, /* I/O Encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O Encoder control */
+ opus_int condCoding /* I The type of conditional coding to use */
);
/******************/
@@ -217,38 +217,38 @@
/******************/
/* Calculates correlation matrix X'*X */
void silk_corrMatrix_FIX(
- const opus_int16 *x, /* I x vector [L + order - 1] used to form data matrix X */
- const opus_int L, /* I Length of vectors */
- const opus_int order, /* I Max lag for correlation */
- const opus_int head_room, /* I Desired headroom */
- opus_int32 *XX, /* O Pointer to X'*X correlation matrix [ order x order ]*/
- opus_int *rshifts /* I/O Right shifts of correlations */
+ const opus_int16 *x, /* I x vector [L + order - 1] used to form data matrix X */
+ const opus_int L, /* I Length of vectors */
+ const opus_int order, /* I Max lag for correlation */
+ const opus_int head_room, /* I Desired headroom */
+ opus_int32 *XX, /* O Pointer to X'*X correlation matrix [ order x order ] */
+ opus_int *rshifts /* I/O Right shifts of correlations */
);
/* Calculates correlation vector X'*t */
void silk_corrVector_FIX(
- const opus_int16 *x, /* I x vector [L + order - 1] used to form data matrix X */
- const opus_int16 *t, /* I Target vector [L] */
- const opus_int L, /* I Length of vectors */
- const opus_int order, /* I Max lag for correlation */
- opus_int32 *Xt, /* O Pointer to X'*t correlation vector [order] */
- const opus_int rshifts /* I Right shifts of correlations */
+ const opus_int16 *x, /* I x vector [L + order - 1] used to form data matrix X */
+ const opus_int16 *t, /* I Target vector [L] */
+ const opus_int L, /* I Length of vectors */
+ const opus_int order, /* I Max lag for correlation */
+ opus_int32 *Xt, /* O Pointer to X'*t correlation vector [order] */
+ const opus_int rshifts /* I Right shifts of correlations */
);
/* Add noise to matrix diagonal */
void silk_regularize_correlations_FIX(
- opus_int32 *XX, /* I/O Correlation matrices */
- opus_int32 *xx, /* I/O Correlation values */
- opus_int32 noise, /* I Noise to add */
- opus_int D /* I Dimension of XX */
+ opus_int32 *XX, /* I/O Correlation matrices */
+ opus_int32 *xx, /* I/O Correlation values */
+ opus_int32 noise, /* I Noise to add */
+ opus_int D /* I Dimension of XX */
);
/* Solves Ax = b, assuming A is symmetric */
void silk_solve_LDL_FIX(
- opus_int32 *A, /* I Pointer to symetric square matrix A */
- opus_int M, /* I Size of matrix */
- const opus_int32 *b, /* I Pointer to b vector */
- opus_int32 *x_Q16 /* O Pointer to x solution vector */
+ opus_int32 *A, /* I Pointer to symetric square matrix A */
+ opus_int M, /* I Size of matrix */
+ const opus_int32 *b, /* I Pointer to b vector */
+ opus_int32 *x_Q16 /* O Pointer to x solution vector */
);
#ifndef FORCE_CPP_BUILD
diff --git a/silk/fixed/noise_shape_analysis_FIX.c b/silk/fixed/noise_shape_analysis_FIX.c
index 8f5ac7b..d2ed8e0 100644
--- a/silk/fixed/noise_shape_analysis_FIX.c
+++ b/silk/fixed/noise_shape_analysis_FIX.c
@@ -139,10 +139,10 @@
/* Compute noise shaping coefficients and initial gain values */
/**************************************************************/
void silk_noise_shape_analysis_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Encoder state FIX */
- silk_encoder_control_FIX *psEncCtrl, /* I/O Encoder control FIX */
- const opus_int16 *pitch_res, /* I LPC residual from pitch analysis */
- const opus_int16 *x /* I Input signal [ frame_length + la_shape ] */
+ silk_encoder_state_FIX *psEnc, /* I/O Encoder state FIX */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O Encoder control FIX */
+ const opus_int16 *pitch_res, /* I LPC residual from pitch analysis */
+ const opus_int16 *x /* I Input signal [ frame_length + la_shape ] */
)
{
silk_shape_state_FIX *psShapeSt = &psEnc->sShape;
diff --git a/silk/fixed/pitch_analysis_core_FIX.c b/silk/fixed/pitch_analysis_core_FIX.c
index e5ea07b..f76c611 100644
--- a/silk/fixed/pitch_analysis_core_FIX.c
+++ b/silk/fixed/pitch_analysis_core_FIX.c
@@ -68,18 +68,18 @@
/*************************************************************/
/* FIXED POINT CORE PITCH ANALYSIS FUNCTION */
/*************************************************************/
-opus_int silk_pitch_analysis_core( /* O Voicing estimate: 0 voiced, 1 unvoiced */
- const opus_int16 *frame, /* I Signal of length PE_FRAME_LENGTH_MS*Fs_kHz */
- opus_int *pitch_out, /* O 4 pitch lag values */
- opus_int16 *lagIndex, /* O Lag Index */
- opus_int8 *contourIndex, /* O Pitch contour Index */
- opus_int *LTPCorr_Q15, /* I/O Normalized correlation; input: value from previous frame */
- opus_int prevLag, /* I Last lag of previous frame; set to zero is unvoiced */
- const opus_int32 search_thres1_Q16, /* I First stage threshold for lag candidates 0 - 1 */
- const opus_int search_thres2_Q15, /* I Final threshold for lag candidates 0 - 1 */
- const opus_int Fs_kHz, /* I Sample frequency (kHz) */
- const opus_int complexity, /* I Complexity setting, 0-2, where 2 is highest */
- const opus_int nb_subfr /* I number of 5 ms subframes */
+opus_int silk_pitch_analysis_core( /* O Voicing estimate: 0 voiced, 1 unvoiced */
+ const opus_int16 *frame, /* I Signal of length PE_FRAME_LENGTH_MS*Fs_kHz */
+ opus_int *pitch_out, /* O 4 pitch lag values */
+ opus_int16 *lagIndex, /* O Lag Index */
+ opus_int8 *contourIndex, /* O Pitch contour Index */
+ opus_int *LTPCorr_Q15, /* I/O Normalized correlation; input: value from previous frame */
+ opus_int prevLag, /* I Last lag of previous frame; set to zero is unvoiced */
+ const opus_int32 search_thres1_Q16, /* I First stage threshold for lag candidates 0 - 1 */
+ const opus_int search_thres2_Q15, /* I Final threshold for lag candidates 0 - 1 */
+ const opus_int Fs_kHz, /* I Sample frequency (kHz) */
+ const opus_int complexity, /* I Complexity setting, 0-2, where 2 is highest */
+ const opus_int nb_subfr /* I number of 5 ms subframes */
)
{
opus_int16 frame_8kHz[ PE_MAX_FRAME_LENGTH_ST_2 ];
@@ -136,7 +136,7 @@
if( Fs_kHz == 16 ) {
silk_memset( filt_state, 0, 2 * sizeof( opus_int32 ) );
silk_resampler_down2( filt_state, frame_8kHz, frame, frame_length );
- } else if ( Fs_kHz == 12 ) {
+ } else if( Fs_kHz == 12 ) {
silk_memset( filt_state, 0, 6 * sizeof( opus_int32 ) );
silk_resampler_down2_3( filt_state, frame_8kHz, frame, frame_length );
} else {
@@ -429,10 +429,10 @@
CCmax_new_b -= prev_lag_bias_Q15; /* Q15 */
}
- if ( CCmax_new_b > CCmax_b && /* Find maximum biased correlation */
- CCmax_new > corr_thres_Q15 && /* Correlation needs to be high enough to be voiced */
- silk_CB_lags_stage2[ 0 ][ CBimax_new ] <= min_lag_8kHz /* Lag must be in range */
- ) {
+ if( CCmax_new_b > CCmax_b && /* Find maximum biased correlation */
+ CCmax_new > corr_thres_Q15 && /* Correlation needs to be high enough to be voiced */
+ silk_CB_lags_stage2[ 0 ][ CBimax_new ] <= min_lag_8kHz /* Lag must be in range */
+ ) {
CCmax_b = CCmax_new_b;
CCmax = CCmax_new;
lag = d;
@@ -450,10 +450,9 @@
}
if( Fs_kHz > 8 ) {
-
- /******************************************************************************
- ** Scale input signal down to avoid correlations measures from overflowing
- *******************************************************************************/
+ /***************************************************************************/
+ /* Scale input signal down to avoid correlations measures from overflowing */
+ /***************************************************************************/
/* find scaling as max scaling for each subframe */
shift = silk_P_Ana_find_scaling( frame, frame_length, sf_length );
if( shift > 0 ) {
@@ -466,7 +465,6 @@
} else {
input_frame_ptr = (opus_int16*)frame;
}
- /*********************************************************************************/
/* Search in original signal */
@@ -600,7 +598,7 @@
silk_assert( complexity >= SILK_PE_MIN_COMPLEX );
silk_assert( complexity <= SILK_PE_MAX_COMPLEX );
- if( nb_subfr == PE_MAX_NB_SUBFR ){
+ if( nb_subfr == PE_MAX_NB_SUBFR ) {
Lag_range_ptr = &silk_Lag_range_stage3[ complexity ][ 0 ][ 0 ];
Lag_CB_ptr = &silk_CB_lags_stage3[ 0 ][ 0 ];
nb_cbk_search = silk_nb_cbk_searchs_stage3[ complexity ];
@@ -666,7 +664,7 @@
silk_assert( complexity >= SILK_PE_MIN_COMPLEX );
silk_assert( complexity <= SILK_PE_MAX_COMPLEX );
- if( nb_subfr == PE_MAX_NB_SUBFR ){
+ if( nb_subfr == PE_MAX_NB_SUBFR ) {
Lag_range_ptr = &silk_Lag_range_stage3[ complexity ][ 0 ][ 0 ];
Lag_CB_ptr = &silk_CB_lags_stage3[ 0 ][ 0 ];
nb_cbk_search = silk_nb_cbk_searchs_stage3[ complexity ];
diff --git a/silk/fixed/prefilter_FIX.c b/silk/fixed/prefilter_FIX.c
index 493a46b..b930f49 100644
--- a/silk/fixed/prefilter_FIX.c
+++ b/silk/fixed/prefilter_FIX.c
@@ -32,26 +32,26 @@
#include "main_FIX.h"
#include "tuning_parameters.h"
-/* silk_prefilter. Prefilter for finding Quantizer input signal */
+/* Prefilter for finding Quantizer input signal */
static inline void silk_prefilt_FIX(
- silk_prefilter_state_FIX *P, /* I/O state */
- opus_int32 st_res_Q12[], /* I short term residual signal */
- opus_int16 xw[], /* O prefiltered signal */
- opus_int32 HarmShapeFIRPacked_Q12, /* I Harmonic shaping coeficients */
- opus_int Tilt_Q14, /* I Tilt shaping coeficient */
- opus_int32 LF_shp_Q14, /* I Low-frequancy shaping coeficients*/
- opus_int lag, /* I Lag for harmonic shaping */
- opus_int length /* I Length of signals */
+ silk_prefilter_state_FIX *P, /* I/O state */
+ opus_int32 st_res_Q12[], /* I short term residual signal */
+ opus_int16 xw[], /* O prefiltered signal */
+ opus_int32 HarmShapeFIRPacked_Q12, /* I Harmonic shaping coeficients */
+ opus_int Tilt_Q14, /* I Tilt shaping coeficient */
+ opus_int32 LF_shp_Q14, /* I Low-frequancy shaping coeficients */
+ opus_int lag, /* I Lag for harmonic shaping */
+ opus_int length /* I Length of signals */
);
void silk_warped_LPC_analysis_filter_FIX(
- opus_int32 state[], /* I/O State [order + 1] */
- opus_int16 res[], /* O Residual signal [length] */
- const opus_int16 coef_Q13[], /* I Coefficients [order] */
- const opus_int16 input[], /* I Input signal [length] */
- const opus_int16 lambda_Q16, /* I Warping factor */
- const opus_int length, /* I Length of input signal */
- const opus_int order /* I Filter order (even) */
+ opus_int32 state[], /* I/O State [order + 1] */
+ opus_int16 res[], /* O Residual signal [length] */
+ const opus_int16 coef_Q13[], /* I Coefficients [order] */
+ const opus_int16 input[], /* I Input signal [length] */
+ const opus_int16 lambda_Q16, /* I Warping factor */
+ const opus_int length, /* I Length of input signal */
+ const opus_int order /* I Filter order (even) */
)
{
opus_int n, i;
@@ -86,10 +86,10 @@
}
void silk_prefilter_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Encoder state FIX */
- const silk_encoder_control_FIX *psEncCtrl, /* I Encoder control FIX */
- opus_int16 xw[], /* O Weighted signal */
- const opus_int16 x[] /* I Speech signal */
+ silk_encoder_state_FIX *psEnc, /* I/O Encoder state */
+ const silk_encoder_control_FIX *psEncCtrl, /* I Encoder control */
+ opus_int16 xw[], /* O Weighted signal */
+ const opus_int16 x[] /* I Speech signal */
)
{
silk_prefilter_state_FIX *P = &psEnc->sPrefilt;
@@ -151,16 +151,16 @@
P->lagPrev = psEncCtrl->pitchL[ MAX_NB_SUBFR - 1 ];
}
-/* silk_prefilter. Prefilter for finding Quantizer input signal */
+/* Prefilter for finding Quantizer input signal */
static inline void silk_prefilt_FIX(
- silk_prefilter_state_FIX *P, /* I/O state */
- opus_int32 st_res_Q12[], /* I short term residual signal */
- opus_int16 xw[], /* O prefiltered signal */
- opus_int32 HarmShapeFIRPacked_Q12, /* I Harmonic shaping coeficients */
- opus_int Tilt_Q14, /* I Tilt shaping coeficient */
- opus_int32 LF_shp_Q14, /* I Low-frequancy shaping coeficients*/
- opus_int lag, /* I Lag for harmonic shaping */
- opus_int length /* I Length of signals */
+ silk_prefilter_state_FIX *P, /* I/O state */
+ opus_int32 st_res_Q12[], /* I short term residual signal */
+ opus_int16 xw[], /* O prefiltered signal */
+ opus_int32 HarmShapeFIRPacked_Q12, /* I Harmonic shaping coeficients */
+ opus_int Tilt_Q14, /* I Tilt shaping coeficient */
+ opus_int32 LF_shp_Q14, /* I Low-frequancy shaping coeficients */
+ opus_int lag, /* I Lag for harmonic shaping */
+ opus_int length /* I Length of signals */
)
{
opus_int i, idx, LTP_shp_buf_idx;
diff --git a/silk/fixed/process_gains_FIX.c b/silk/fixed/process_gains_FIX.c
index f56a8f2..740be0b 100644
--- a/silk/fixed/process_gains_FIX.c
+++ b/silk/fixed/process_gains_FIX.c
@@ -34,12 +34,12 @@
/* Processing of gains */
void silk_process_gains_FIX(
- silk_encoder_state_FIX *psEnc, /* I/O Encoder state_FIX */
- silk_encoder_control_FIX *psEncCtrl, /* I/O Encoder control_FIX */
- opus_int condCoding /* The type of conditional coding to use */
+ silk_encoder_state_FIX *psEnc, /* I/O Encoder state */
+ silk_encoder_control_FIX *psEncCtrl, /* I/O Encoder control */
+ opus_int condCoding /* I The type of conditional coding to use */
)
{
- silk_shape_state_FIX *psShapeSt = &psEnc->sShape;
+ silk_shape_state_FIX *psShapeSt = &psEnc->sShape;
opus_int k;
opus_int32 s_Q16, InvMaxSqrVal_Q16, gain, gain_squared, ResNrg, ResNrgPart, quant_offset_Q10;
@@ -78,11 +78,11 @@
silk_assert( gain_squared > 0 );
gain = silk_SQRT_APPROX( gain_squared ); /* Q8 */
gain = silk_min( gain, silk_int32_MAX >> 8 );
- psEncCtrl->Gains_Q16[ k ] = silk_LSHIFT_SAT32( gain, 8 ); /* Q16 */
+ psEncCtrl->Gains_Q16[ k ] = silk_LSHIFT_SAT32( gain, 8 ); /* Q16 */
} else {
gain = silk_SQRT_APPROX( gain_squared ); /* Q0 */
gain = silk_min( gain, silk_int32_MAX >> 16 );
- psEncCtrl->Gains_Q16[ k ] = silk_LSHIFT_SAT32( gain, 16 ); /* Q16 */
+ psEncCtrl->Gains_Q16[ k ] = silk_LSHIFT_SAT32( gain, 16 ); /* Q16 */
}
}
diff --git a/silk/fixed/regularize_correlations_FIX.c b/silk/fixed/regularize_correlations_FIX.c
index d8e7994..f0dac4a 100644
--- a/silk/fixed/regularize_correlations_FIX.c
+++ b/silk/fixed/regularize_correlations_FIX.c
@@ -33,10 +33,10 @@
/* Add noise to matrix diagonal */
void silk_regularize_correlations_FIX(
- opus_int32 *XX, /* I/O Correlation matrices */
- opus_int32 *xx, /* I/O Correlation values */
- opus_int32 noise, /* I Noise to add */
- opus_int D /* I Dimension of XX */
+ opus_int32 *XX, /* I/O Correlation matrices */
+ opus_int32 *xx, /* I/O Correlation values */
+ opus_int32 noise, /* I Noise to add */
+ opus_int D /* I Dimension of XX */
)
{
opus_int i;
diff --git a/silk/fixed/residual_energy16_FIX.c b/silk/fixed/residual_energy16_FIX.c
index e73cdf8..bbd1027 100644
--- a/silk/fixed/residual_energy16_FIX.c
+++ b/silk/fixed/residual_energy16_FIX.c
@@ -33,12 +33,12 @@
/* Residual energy: nrg = wxx - 2 * wXx * c + c' * wXX * c */
opus_int32 silk_residual_energy16_covar_FIX(
- const opus_int16 *c, /* I Prediction vector */
- const opus_int32 *wXX, /* I Correlation matrix */
- const opus_int32 *wXx, /* I Correlation vector */
- opus_int32 wxx, /* I Signal energy */
- opus_int D, /* I Dimension */
- opus_int cQ /* I Q value for c vector 0 - 15 */
+ const opus_int16 *c, /* I Prediction vector */
+ const opus_int32 *wXX, /* I Correlation matrix */
+ const opus_int32 *wXx, /* I Correlation vector */
+ opus_int32 wxx, /* I Signal energy */
+ opus_int D, /* I Dimension */
+ opus_int cQ /* I Q value for c vector 0 - 15 */
)
{
opus_int i, j, lshifts, Qxtra;
diff --git a/silk/fixed/residual_energy_FIX.c b/silk/fixed/residual_energy_FIX.c
index 0053a89..3894881 100644
--- a/silk/fixed/residual_energy_FIX.c
+++ b/silk/fixed/residual_energy_FIX.c
@@ -34,14 +34,14 @@
/* Calculates residual energies of input subframes where all subframes have LPC_order */
/* of preceeding samples */
void silk_residual_energy_FIX(
- opus_int32 nrgs[ MAX_NB_SUBFR ], /* O Residual energy per subframe */
- opus_int nrgsQ[ MAX_NB_SUBFR ], /* O Q value per subframe */
- const opus_int16 x[], /* I Input signal */
- opus_int16 a_Q12[ 2 ][ MAX_LPC_ORDER ], /* I AR coefs for each frame half */
- const opus_int32 gains[ MAX_NB_SUBFR ], /* 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 */
+ opus_int32 nrgs[ MAX_NB_SUBFR ], /* O Residual energy per subframe */
+ opus_int nrgsQ[ MAX_NB_SUBFR ], /* O Q value per subframe */
+ const opus_int16 x[], /* I Input signal */
+ opus_int16 a_Q12[ 2 ][ MAX_LPC_ORDER ], /* I AR coefs for each frame half */
+ const opus_int32 gains[ MAX_NB_SUBFR ], /* 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 */
)
{
opus_int offset, i, j, rshift, lz1, lz2;
diff --git a/silk/fixed/schur64_FIX.c b/silk/fixed/schur64_FIX.c
index 8c9ee05..bab7115 100644
--- a/silk/fixed/schur64_FIX.c
+++ b/silk/fixed/schur64_FIX.c
@@ -33,10 +33,10 @@
/* Slower than schur(), but more accurate. */
/* Uses SMULL(), available on armv4 */
-opus_int32 silk_schur64( /* O: Returns residual energy */
- opus_int32 rc_Q16[], /* O: Reflection coefficients [order] Q16 */
- const opus_int32 c[], /* I: Correlations [order+1] */
- opus_int32 order /* I: Prediction order */
+opus_int32 silk_schur64( /* O returns residual energy */
+ opus_int32 rc_Q16[], /* O Reflection coefficients [order] Q16 */
+ const opus_int32 c[], /* I Correlations [order+1] */
+ opus_int32 order /* I Prediction order */
)
{
opus_int k, n;
diff --git a/silk/fixed/schur_FIX.c b/silk/fixed/schur_FIX.c
index 86f3734..14e4578 100644
--- a/silk/fixed/schur_FIX.c
+++ b/silk/fixed/schur_FIX.c
@@ -33,10 +33,10 @@
/* Faster than schur64(), but much less accurate. */
/* uses SMLAWB(), requiring armv5E and higher. */
-opus_int32 silk_schur( /* O: Returns residual energy */
- opus_int16 *rc_Q15, /* O: reflection coefficients [order] Q15 */
- const opus_int32 *c, /* I: correlations [order+1] */
- const opus_int32 order /* I: prediction order */
+opus_int32 silk_schur( /* O Returns residual energy */
+ opus_int16 *rc_Q15, /* O reflection coefficients [order] Q15 */
+ const opus_int32 *c, /* I correlations [order+1] */
+ const opus_int32 order /* I prediction order */
)
{
opus_int k, n, lz;
diff --git a/silk/fixed/silk_fixed.vcxproj b/silk/fixed/silk_fixed.vcxproj
index 638fab5..e607654 100644
--- a/silk/fixed/silk_fixed.vcxproj
+++ b/silk/fixed/silk_fixed.vcxproj
@@ -1,124 +1,125 @@
-<?xml version="1.0" encoding="utf-8"?>
-<Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
- <ItemGroup Label="ProjectConfigurations">
- <ProjectConfiguration Include="Debug|Win32">
- <Configuration>Debug</Configuration>
- <Platform>Win32</Platform>
- </ProjectConfiguration>
- <ProjectConfiguration Include="Release|Win32">
- <Configuration>Release</Configuration>
- <Platform>Win32</Platform>
- </ProjectConfiguration>
- </ItemGroup>
- <PropertyGroup Label="Globals">
- <ProjectGuid>{8484C90D-1561-402F-A91D-2DB10F8C5171}</ProjectGuid>
- <Keyword>Win32Proj</Keyword>
- <RootNamespace>src_FIX</RootNamespace>
- <ProjectName>silk_fixed</ProjectName>
- </PropertyGroup>
- <Import Project="$(VCTargetsPath)\Microsoft.Cpp.Default.props" />
- <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'" Label="Configuration">
- <ConfigurationType>StaticLibrary</ConfigurationType>
- <UseDebugLibraries>true</UseDebugLibraries>
- <CharacterSet>Unicode</CharacterSet>
- </PropertyGroup>
- <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'" Label="Configuration">
- <ConfigurationType>StaticLibrary</ConfigurationType>
- <UseDebugLibraries>false</UseDebugLibraries>
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+ <Link>
+ <SubSystem>Windows</SubSystem>
+ <GenerateDebugInformation>true</GenerateDebugInformation>
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+ <IntrinsicFunctions>true</IntrinsicFunctions>
+ <PreprocessorDefinitions>HAVE_CONFIG_H;WIN32;NDEBUG;_LIB;%(PreprocessorDefinitions)</PreprocessorDefinitions>
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+ <Link>
+ <SubSystem>Windows</SubSystem>
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+ <OptimizeReferences>true</OptimizeReferences>
+ </Link>
+ <Lib>
+ <OutputFile>$(OutDir)$(TargetName)$(TargetExt)</OutputFile>
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+ <ItemGroup>
+ <None Include="ReadMe.txt" />
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+ <ItemGroup>
+ <ClCompile Include="corrMatrix_FIX.c" />
+ <ClCompile Include="encode_frame_FIX.c" />
+ <ClCompile Include="find_LPC_FIX.c" />
+ <ClCompile Include="find_LTP_FIX.c" />
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+ <ClCompile Include="k2a_Q16_FIX.c" />
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+ <ClCompile Include="burg_modified_FIX.c" />
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+ <ClCompile Include="vector_ops_FIX.c" />
+ <ClCompile Include="schur_FIX.c" />
+ <ClCompile Include="schur64_FIX.c" />
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+ <ClInclude Include="..\..\win32\config.h" />
+ <ClInclude Include="..\SigProc_FIX.h" />
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+ <ClInclude Include="structs_FIX.h" />
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+</Project>
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diff --git a/silk/fixed/silk_fixed.vcxproj.filters b/silk/fixed/silk_fixed.vcxproj.filters
index 252d975..dfdc069 100644
--- a/silk/fixed/silk_fixed.vcxproj.filters
+++ b/silk/fixed/silk_fixed.vcxproj.filters
@@ -1,111 +1,114 @@
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+ </Filter>
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+ <None Include="ReadMe.txt" />
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <ClCompile Include="find_LTP_FIX.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="find_pitch_lags_FIX.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="find_pred_coefs_FIX.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="LTP_analysis_filter_FIX.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="LTP_scale_ctrl_FIX.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="noise_shape_analysis_FIX.c">
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <ClCompile Include="k2a_Q16_FIX.c">
+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <ClCompile Include="autocorr_FIX.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="pitch_analysis_core_FIX.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="vector_ops_FIX.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="schur_FIX.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="schur64_FIX.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ </ItemGroup>
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+ <ClInclude Include="..\..\win32\config.h">
+ <Filter>Header Files</Filter>
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+ <ClInclude Include="main_FIX.h">
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ </ItemGroup>
</Project>
\ No newline at end of file
diff --git a/silk/fixed/solve_LS_FIX.c b/silk/fixed/solve_LS_FIX.c
index 3285051..f6b5da0 100644
--- a/silk/fixed/solve_LS_FIX.c
+++ b/silk/fixed/solve_LS_FIX.c
@@ -43,40 +43,40 @@
/* Factorize square matrix A into LDL form */
static inline void silk_LDL_factorize_FIX(
- opus_int32 *A, /* I/O Pointer to Symetric Square Matrix */
- opus_int M, /* I Size of Matrix */
- opus_int32 *L_Q16, /* I/O Pointer to Square Upper triangular Matrix */
- inv_D_t *inv_D /* I/O Pointer to vector holding inverted diagonal elements of D */
+ opus_int32 *A, /* I/O Pointer to Symetric Square Matrix */
+ opus_int M, /* I Size of Matrix */
+ opus_int32 *L_Q16, /* I/O Pointer to Square Upper triangular Matrix */
+ inv_D_t *inv_D /* I/O Pointer to vector holding inverted diagonal elements of D */
);
/* Solve Lx = b, when L is lower triangular and has ones on the diagonal */
static inline void silk_LS_SolveFirst_FIX(
- const opus_int32 *L_Q16, /* I Pointer to Lower Triangular Matrix */
- opus_int M, /* I Dim of Matrix equation */
- const opus_int32 *b, /* I b Vector */
- opus_int32 *x_Q16 /* O x Vector */
+ const opus_int32 *L_Q16, /* I Pointer to Lower Triangular Matrix */
+ opus_int M, /* I Dim of Matrix equation */
+ const opus_int32 *b, /* I b Vector */
+ opus_int32 *x_Q16 /* O x Vector */
);
/* Solve L^t*x = b, where L is lower triangular with ones on the diagonal */
static inline void silk_LS_SolveLast_FIX(
- const opus_int32 *L_Q16, /* I Pointer to Lower Triangular Matrix */
- const opus_int M, /* I Dim of Matrix equation */
- const opus_int32 *b, /* I b Vector */
- opus_int32 *x_Q16 /* O x Vector */
+ const opus_int32 *L_Q16, /* I Pointer to Lower Triangular Matrix */
+ const opus_int M, /* I Dim of Matrix equation */
+ const opus_int32 *b, /* I b Vector */
+ opus_int32 *x_Q16 /* O x Vector */
);
static inline void silk_LS_divide_Q16_FIX(
- opus_int32 T[], /* I/O Numenator vector */
- inv_D_t *inv_D, /* I 1 / D vector */
- opus_int M /* I dimension */
+ opus_int32 T[], /* I/O Numenator vector */
+ inv_D_t *inv_D, /* I 1 / D vector */
+ opus_int M /* I dimension */
);
/* Solves Ax = b, assuming A is symmetric */
void silk_solve_LDL_FIX(
- opus_int32 *A, /* I Pointer to symetric square matrix A */
- opus_int M, /* I Size of matrix */
- const opus_int32 *b, /* I Pointer to b vector */
- opus_int32 *x_Q16 /* O Pointer to x solution vector */
+ opus_int32 *A, /* I Pointer to symetric square matrix A */
+ opus_int M, /* I Size of matrix */
+ const opus_int32 *b, /* I Pointer to b vector */
+ opus_int32 *x_Q16 /* O Pointer to x solution vector */
)
{
opus_int32 L_Q16[ MAX_MATRIX_SIZE * MAX_MATRIX_SIZE ];
@@ -110,10 +110,10 @@
}
static inline void silk_LDL_factorize_FIX(
- opus_int32 *A, /* I Pointer to Symetric Square Matrix */
- opus_int M, /* I Size of Matrix */
- opus_int32 *L_Q16, /* I/O Pointer to Square Upper triangular Matrix */
- inv_D_t *inv_D /* I/O Pointer to vector holding inverted diagonal elements of D */
+ opus_int32 *A, /* I/O Pointer to Symetric Square Matrix */
+ opus_int M, /* I Size of Matrix */
+ opus_int32 *L_Q16, /* I/O Pointer to Square Upper triangular Matrix */
+ inv_D_t *inv_D /* I/O Pointer to vector holding inverted diagonal elements of D */
)
{
opus_int i, j, k, status, loop_count;
@@ -182,9 +182,9 @@
}
static inline void silk_LS_divide_Q16_FIX(
- opus_int32 T[], /* I/O Numenator vector */
- inv_D_t *inv_D, /* I 1 / D vector */
- opus_int M /* I Order */
+ opus_int32 T[], /* I/O Numenator vector */
+ inv_D_t *inv_D, /* I 1 / D vector */
+ opus_int M /* I dimension */
)
{
opus_int i;
@@ -202,10 +202,10 @@
/* Solve Lx = b, when L is lower triangular and has ones on the diagonal */
static inline void silk_LS_SolveFirst_FIX(
- const opus_int32 *L_Q16, /* I Pointer to Lower Triangular Matrix */
- opus_int M, /* I Dim of Matrix equation */
- const opus_int32 *b, /* I b Vector */
- opus_int32 *x_Q16 /* O x Vector */
+ const opus_int32 *L_Q16, /* I Pointer to Lower Triangular Matrix */
+ opus_int M, /* I Dim of Matrix equation */
+ const opus_int32 *b, /* I b Vector */
+ opus_int32 *x_Q16 /* O x Vector */
)
{
opus_int i, j;
@@ -224,10 +224,10 @@
/* Solve L^t*x = b, where L is lower triangular with ones on the diagonal */
static inline void silk_LS_SolveLast_FIX(
- const opus_int32 *L_Q16, /* I Pointer to Lower Triangular Matrix */
- const opus_int M, /* I Dim of Matrix equation */
- const opus_int32 *b, /* I b Vector */
- opus_int32 *x_Q16 /* O x Vector */
+ const opus_int32 *L_Q16, /* I Pointer to Lower Triangular Matrix */
+ const opus_int M, /* I Dim of Matrix equation */
+ const opus_int32 *b, /* I b Vector */
+ opus_int32 *x_Q16 /* O x Vector */
)
{
opus_int i, j;
diff --git a/silk/fixed/structs_FIX.h b/silk/fixed/structs_FIX.h
index 8803c7f..4569492 100644
--- a/silk/fixed/structs_FIX.h
+++ b/silk/fixed/structs_FIX.h
@@ -41,41 +41,41 @@
/* Noise shaping analysis state */
/********************************/
typedef struct {
- opus_int8 LastGainIndex;
- opus_int32 HarmBoost_smth_Q16;
- opus_int32 HarmShapeGain_smth_Q16;
- opus_int32 Tilt_smth_Q16;
+ opus_int8 LastGainIndex;
+ opus_int32 HarmBoost_smth_Q16;
+ opus_int32 HarmShapeGain_smth_Q16;
+ opus_int32 Tilt_smth_Q16;
} silk_shape_state_FIX;
/********************************/
/* Prefilter state */
/********************************/
typedef struct {
- opus_int16 sLTP_shp[ LTP_BUF_LENGTH ];
- opus_int32 sAR_shp[ MAX_SHAPE_LPC_ORDER + 1 ];
- opus_int sLTP_shp_buf_idx;
- opus_int32 sLF_AR_shp_Q12;
- opus_int32 sLF_MA_shp_Q12;
- opus_int sHarmHP;
- opus_int32 rand_seed;
- opus_int lagPrev;
+ opus_int16 sLTP_shp[ LTP_BUF_LENGTH ];
+ opus_int32 sAR_shp[ MAX_SHAPE_LPC_ORDER + 1 ];
+ opus_int sLTP_shp_buf_idx;
+ opus_int32 sLF_AR_shp_Q12;
+ opus_int32 sLF_MA_shp_Q12;
+ opus_int sHarmHP;
+ opus_int32 rand_seed;
+ opus_int lagPrev;
} silk_prefilter_state_FIX;
/********************************/
/* Encoder state FIX */
/********************************/
typedef struct {
- silk_encoder_state sCmn; /* Common struct, shared with floating-point code */
- silk_shape_state_FIX sShape; /* Shape state */
- silk_prefilter_state_FIX sPrefilt; /* Prefilter State */
+ silk_encoder_state sCmn; /* Common struct, shared with floating-point code */
+ silk_shape_state_FIX sShape; /* Shape state */
+ silk_prefilter_state_FIX sPrefilt; /* Prefilter State */
/* Buffer for find pitch and noise shape analysis */
- silk_DWORD_ALIGN opus_int16 x_buf[ 2 * MAX_FRAME_LENGTH + LA_SHAPE_MAX ];/* Buffer for find pitch and noise shape analysis */
- opus_int LTPCorr_Q15; /* Normalized correlation from pitch lag estimator */
+ silk_DWORD_ALIGN opus_int16 x_buf[ 2 * MAX_FRAME_LENGTH + LA_SHAPE_MAX ];/* Buffer for find pitch and noise shape analysis */
+ opus_int LTPCorr_Q15; /* Normalized correlation from pitch lag estimator */
/* Parameters For LTP scaling Control */
- opus_int prevLTPredCodGain_Q7;
- opus_int HPLTPredCodGain_Q7;
+ opus_int prevLTPredCodGain_Q7;
+ opus_int HPLTPredCodGain_Q7;
} silk_encoder_state_FIX;
/************************/
@@ -83,50 +83,50 @@
/************************/
typedef struct {
/* Prediction and coding parameters */
- opus_int32 Gains_Q16[ MAX_NB_SUBFR ];
- silk_DWORD_ALIGN opus_int16 PredCoef_Q12[ 2 ][ MAX_LPC_ORDER ];
- opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ];
- opus_int LTP_scale_Q14;
- opus_int pitchL[ MAX_NB_SUBFR ];
+ opus_int32 Gains_Q16[ MAX_NB_SUBFR ];
+ silk_DWORD_ALIGN opus_int16 PredCoef_Q12[ 2 ][ MAX_LPC_ORDER ];
+ opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ];
+ opus_int LTP_scale_Q14;
+ opus_int pitchL[ MAX_NB_SUBFR ];
/* Noise shaping parameters */
/* Testing */
silk_DWORD_ALIGN opus_int16 AR1_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ];
silk_DWORD_ALIGN opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ];
- opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ]; /* Packs two int16 coefficients per int32 value */
- opus_int GainsPre_Q14[ MAX_NB_SUBFR ];
- opus_int HarmBoost_Q14[ MAX_NB_SUBFR ];
- opus_int Tilt_Q14[ MAX_NB_SUBFR ];
- opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ];
- opus_int Lambda_Q10;
- opus_int input_quality_Q14;
- opus_int coding_quality_Q14;
+ opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ]; /* Packs two int16 coefficients per int32 value */
+ opus_int GainsPre_Q14[ MAX_NB_SUBFR ];
+ opus_int HarmBoost_Q14[ MAX_NB_SUBFR ];
+ opus_int Tilt_Q14[ MAX_NB_SUBFR ];
+ opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ];
+ opus_int Lambda_Q10;
+ opus_int input_quality_Q14;
+ opus_int coding_quality_Q14;
/* measures */
- opus_int sparseness_Q8;
- opus_int32 predGain_Q16;
- opus_int LTPredCodGain_Q7;
- opus_int32 ResNrg[ MAX_NB_SUBFR ]; /* Residual energy per subframe */
- opus_int ResNrgQ[ MAX_NB_SUBFR ]; /* Q domain for the residual energy > 0 */
+ opus_int sparseness_Q8;
+ opus_int32 predGain_Q16;
+ opus_int LTPredCodGain_Q7;
+ opus_int32 ResNrg[ MAX_NB_SUBFR ]; /* Residual energy per subframe */
+ opus_int ResNrgQ[ MAX_NB_SUBFR ]; /* Q domain for the residual energy > 0 */
/* Parameters for CBR mode */
- opus_int32 GainsUnq_Q16[ MAX_NB_SUBFR ];
- opus_int8 lastGainIndexPrev;
+ opus_int32 GainsUnq_Q16[ MAX_NB_SUBFR ];
+ opus_int8 lastGainIndexPrev;
} silk_encoder_control_FIX;
/************************/
/* Encoder Super Struct */
/************************/
typedef struct {
- silk_encoder_state_FIX state_Fxx[ ENCODER_NUM_CHANNELS ];
- stereo_enc_state sStereo;
- opus_int32 nBitsExceeded;
- opus_int nChannelsAPI;
- opus_int nChannelsInternal;
- opus_int nPrevChannelsInternal;
- opus_int timeSinceSwitchAllowed_ms;
- opus_int allowBandwidthSwitch;
- opus_int prev_decode_only_middle;
+ silk_encoder_state_FIX state_Fxx[ ENCODER_NUM_CHANNELS ];
+ stereo_enc_state sStereo;
+ opus_int32 nBitsExceeded;
+ opus_int nChannelsAPI;
+ opus_int nChannelsInternal;
+ opus_int nPrevChannelsInternal;
+ opus_int timeSinceSwitchAllowed_ms;
+ opus_int allowBandwidthSwitch;
+ opus_int prev_decode_only_middle;
} silk_encoder;
diff --git a/silk/fixed/vector_ops_FIX.c b/silk/fixed/vector_ops_FIX.c
index d416c93..6cf41d6 100644
--- a/silk/fixed/vector_ops_FIX.c
+++ b/silk/fixed/vector_ops_FIX.c
@@ -33,10 +33,10 @@
/* Copy and multiply a vector by a constant */
void silk_scale_copy_vector16(
- opus_int16 *data_out,
- const opus_int16 *data_in,
- opus_int32 gain_Q16, /* (I): gain in Q16 */
- const opus_int dataSize /* (I): length */
+ opus_int16 *data_out,
+ const opus_int16 *data_in,
+ opus_int32 gain_Q16, /* I Gain in Q16 */
+ const opus_int dataSize /* I Length */
)
{
opus_int i;
@@ -50,28 +50,27 @@
/* Multiply a vector by a constant */
void silk_scale_vector32_Q26_lshift_18(
- opus_int32 *data1, /* (I/O): Q0/Q18 */
- opus_int32 gain_Q26, /* (I): Q26 */
- opus_int dataSize /* (I): length */
+ opus_int32 *data1, /* I/O Q0/Q18 */
+ opus_int32 gain_Q26, /* I Q26 */
+ opus_int dataSize /* I length */
)
{
opus_int i;
for( i = 0; i < dataSize; i++ ) {
- data1[ i ] = (opus_int32)silk_CHECK_FIT32( silk_RSHIFT64( silk_SMULL( data1[ i ], gain_Q26 ), 8 ) );/* OUTPUT: Q18*/
+ data1[ i ] = (opus_int32)silk_CHECK_FIT32( silk_RSHIFT64( silk_SMULL( data1[ i ], gain_Q26 ), 8 ) ); /* OUTPUT: Q18 */
}
}
-/* sum= for(i=0;i<len;i++)inVec1[i]*inVec2[i]; --- inner product */
+/* sum = for(i=0;i<len;i++)inVec1[i]*inVec2[i]; --- inner product */
/* Note for ARM asm: */
-/* * inVec1 and inVec2 should be at least 2 byte aligned. (Or defined as short/int16) */
+/* * inVec1 and inVec2 should be at least 2 byte aligned. */
/* * len should be positive 16bit integer. */
/* * only when len>6, memory access can be reduced by half. */
-
opus_int32 silk_inner_prod_aligned(
- const opus_int16 *const inVec1, /* I input vector 1 */
- const opus_int16 *const inVec2, /* I input vector 2 */
- const opus_int len /* I vector lengths */
+ const opus_int16 *const inVec1, /* I input vector 1 */
+ const opus_int16 *const inVec2, /* I input vector 2 */
+ const opus_int len /* I vector lengths */
)
{
opus_int i;
@@ -83,9 +82,9 @@
}
opus_int64 silk_inner_prod16_aligned_64(
- const opus_int16 *inVec1, /* I input vector 1 */
- const opus_int16 *inVec2, /* I input vector 2 */
- const opus_int len /* I vector lengths */
+ const opus_int16 *inVec1, /* I input vector 1 */
+ const opus_int16 *inVec2, /* I input vector 2 */
+ const opus_int len /* I vector lengths */
)
{
opus_int i;
@@ -97,9 +96,9 @@
}
/* Function that returns the maximum absolut value of the input vector */
-opus_int16 silk_int16_array_maxabs( /* O Maximum absolute value, max: 2^15-1 */
- const opus_int16 *vec, /* I Input vector [len] */
- const opus_int32 len /* I Length of input vector */
+opus_int16 silk_int16_array_maxabs( /* O Maximum absolute value, max: 2^15-1 */
+ const opus_int16 *vec, /* I Input vector [len] */
+ const opus_int32 len /* I Length of input vector */
)
{
opus_int32 max = 0, i, lvl = 0, ind;
@@ -116,7 +115,7 @@
}
/* Do not return 32768, as it will not fit in an int16 so may lead to problems later on */
- if( max >= 1073676289 ) { /* (2^15-1)^2 = 1073676289*/
+ if( max >= 1073676289 ) { /* (2^15-1)^2 = 1073676289 */
return( silk_int16_MAX );
} else {
if( vec[ ind ] < 0 ) {
diff --git a/silk/fixed/warped_autocorrelation_FIX.c b/silk/fixed/warped_autocorrelation_FIX.c
index 73007e5..c79c04f 100644
--- a/silk/fixed/warped_autocorrelation_FIX.c
+++ b/silk/fixed/warped_autocorrelation_FIX.c
@@ -36,12 +36,12 @@
/* Autocorrelations for a warped frequency axis */
void silk_warped_autocorrelation_FIX(
- opus_int32 *corr, /* O Result [order + 1] */
- opus_int *scale, /* O Scaling of the correlation vector */
- const opus_int16 *input, /* I Input data to correlate */
- const opus_int warping_Q16, /* I Warping coefficient */
- const opus_int length, /* I Length of input */
- const opus_int order /* I Correlation order (even) */
+ opus_int32 *corr, /* O Result [order + 1] */
+ opus_int *scale, /* O Scaling of the correlation vector */
+ const opus_int16 *input, /* I Input data to correlate */
+ const opus_int warping_Q16, /* I Warping coefficient */
+ const opus_int length, /* I Length of input */
+ const opus_int order /* I Correlation order (even) */
)
{
opus_int n, i, lsh;
diff --git a/silk/float/LPC_analysis_filter_FLP.c b/silk/float/LPC_analysis_filter_FLP.c
index c91ef0b..1413ff5 100644
--- a/silk/float/LPC_analysis_filter_FLP.c
+++ b/silk/float/LPC_analysis_filter_FLP.c
@@ -51,7 +51,7 @@
silk_float LPC_pred;
const silk_float *s_ptr;
- for ( ix = 16; ix < length; ix++) {
+ for( ix = 16; ix < length; ix++ ) {
s_ptr = &s[ix - 1];
/* short-term prediction */
@@ -89,7 +89,7 @@
silk_float LPC_pred;
const silk_float *s_ptr;
- for ( ix = 14; ix < length; ix++) {
+ for( ix = 14; ix < length; ix++ ) {
s_ptr = &s[ix - 1];
/* short-term prediction */
@@ -125,7 +125,7 @@
silk_float LPC_pred;
const silk_float *s_ptr;
- for ( ix = 12; ix < length; ix++) {
+ for( ix = 12; ix < length; ix++ ) {
s_ptr = &s[ix - 1];
/* short-term prediction */
@@ -159,7 +159,7 @@
silk_float LPC_pred;
const silk_float *s_ptr;
- for ( ix = 10; ix < length; ix++) {
+ for( ix = 10; ix < length; ix++ ) {
s_ptr = &s[ix - 1];
/* short-term prediction */
@@ -191,7 +191,7 @@
silk_float LPC_pred;
const silk_float *s_ptr;
- for ( ix = 8; ix < length; ix++) {
+ for( ix = 8; ix < length; ix++ ) {
s_ptr = &s[ix - 1];
/* short-term prediction */
@@ -221,7 +221,7 @@
silk_float LPC_pred;
const silk_float *s_ptr;
- for ( ix = 6; ix < length; ix++) {
+ for( ix = 6; ix < length; ix++ ) {
s_ptr = &s[ix - 1];
/* short-term prediction */
@@ -243,13 +243,12 @@
/* filter always starts with zero state */
/* first Order output samples are set to zero */
/************************************************/
-
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 */
+ 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 */
)
{
silk_assert( Order <= length );
diff --git a/silk/float/LPC_inv_pred_gain_FLP.c b/silk/float/LPC_inv_pred_gain_FLP.c
index a141d11..d7a5d87 100644
--- a/silk/float/LPC_inv_pred_gain_FLP.c
+++ b/silk/float/LPC_inv_pred_gain_FLP.c
@@ -36,15 +36,15 @@
/* compute inverse of LPC prediction gain, and */
/* test if LPC coefficients are stable (all poles within unit circle) */
-/* this code is based on silk_a2k_FLP() */
-opus_int silk_LPC_inverse_pred_gain_FLP( /* O: returns 1 if unstable, otherwise 0 */
- silk_float *invGain, /* O: inverse prediction gain, energy domain */
- const silk_float *A, /* I: prediction coefficients [order] */
- opus_int32 order /* I: prediction order */
+/* this code is based on silk_a2k_FLP() */
+opus_int silk_LPC_inverse_pred_gain_FLP( /* O returns 1 if unstable, otherwise 0 */
+ silk_float *invGain, /* O inverse prediction gain, energy domain */
+ const silk_float *A, /* I prediction coefficients [order] */
+ opus_int32 order /* I prediction order */
)
{
opus_int k, n;
- double rc, rc_mult1, rc_mult2;
+ double rc, rc_mult1, rc_mult2;
silk_float Atmp[ 2 ][ SILK_MAX_ORDER_LPC ];
silk_float *Aold, *Anew;
@@ -54,7 +54,7 @@
*invGain = 1.0f;
for( k = order - 1; k > 0; k-- ) {
rc = -Anew[ k ];
- if (rc > RC_THRESHOLD || rc < -RC_THRESHOLD) {
+ if( rc > RC_THRESHOLD || rc < -RC_THRESHOLD ) {
return 1;
}
rc_mult1 = 1.0f - rc * rc;
@@ -68,7 +68,7 @@
}
}
rc = -Anew[ 0 ];
- if ( rc > RC_THRESHOLD || rc < -RC_THRESHOLD ) {
+ if( rc > RC_THRESHOLD || rc < -RC_THRESHOLD ) {
return 1;
}
rc_mult1 = 1.0f - rc * rc;
diff --git a/silk/float/LTP_analysis_filter_FLP.c b/silk/float/LTP_analysis_filter_FLP.c
index 030aea1..7d2db93 100644
--- a/silk/float/LTP_analysis_filter_FLP.c
+++ b/silk/float/LTP_analysis_filter_FLP.c
@@ -32,14 +32,14 @@
#include "main_FLP.h"
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 preceeding 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 Preceeding samples for each subframe */
+ silk_float *LTP_res, /* O LTP res MAX_NB_SUBFR*(pre_lgth+subfr_lngth) */
+ const silk_float *x, /* I Input signal, with preceeding 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 Preceeding samples for each subframe */
)
{
const silk_float *x_ptr, *x_lag_ptr;
diff --git a/silk/float/LTP_scale_ctrl_FLP.c b/silk/float/LTP_scale_ctrl_FLP.c
index cbac100..ebfdbf4 100644
--- a/silk/float/LTP_scale_ctrl_FLP.c
+++ b/silk/float/LTP_scale_ctrl_FLP.c
@@ -32,9 +32,9 @@
#include "main_FLP.h"
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 */
+ 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 */
)
{
opus_int round_loss;
diff --git a/silk/float/SigProc_FLP.h b/silk/float/SigProc_FLP.h
index b11c396..bf1d8ee 100644
--- a/silk/float/SigProc_FLP.h
+++ b/silk/float/SigProc_FLP.h
@@ -42,132 +42,127 @@
/* Chirp (bw expand) LP AR filter */
void silk_bwexpander_FLP(
- silk_float *ar, /* io AR filter to be expanded (without leading 1) */
- const opus_int d, /* i length of ar */
- const silk_float chirp /* i chirp factor (typically in range (0..1) ) */
+ silk_float *ar, /* I/O AR filter to be expanded (without leading 1) */
+ const opus_int d, /* I length of ar */
+ const silk_float chirp /* I chirp factor (typically in range (0..1) ) */
);
-/* compute inverse of LPC prediction gain, and */
-/* test if LPC coefficients are stable (all poles within unit circle) */
-/* this code is based on silk_FLP_a2k() */
-opus_int silk_LPC_inverse_pred_gain_FLP( /* O: returns 1 if unstable, otherwise 0 */
- silk_float *invGain, /* O: inverse prediction gain, energy domain */
- const silk_float *A, /* I: prediction coefficients [order] */
- opus_int32 order /* I: prediction order */
+/* compute inverse of LPC prediction gain, and */
+/* test if LPC coefficients are stable (all poles within unit circle) */
+/* this code is based on silk_FLP_a2k() */
+opus_int silk_LPC_inverse_pred_gain_FLP( /* O returns 1 if unstable, otherwise 0 */
+ silk_float *invGain, /* O inverse prediction gain, energy domain */
+ const silk_float *A, /* I prediction coefficients [order] */
+ opus_int32 order /* I prediction order */
);
-silk_float silk_schur_FLP( /* O returns residual energy */
- silk_float refl_coef[], /* O reflection coefficients (length order) */
- const silk_float auto_corr[], /* I autocorrelation sequence (length order+1) */
- opus_int order /* I order */
+silk_float silk_schur_FLP( /* O returns residual energy */
+ silk_float refl_coef[], /* O reflection coefficients (length order) */
+ const silk_float auto_corr[], /* I autocorrelation sequence (length order+1) */
+ opus_int order /* I order */
);
void silk_k2a_FLP(
- silk_float *A, /* O: prediction coefficients [order] */
- const silk_float *rc, /* I: reflection coefficients [order] */
- opus_int32 order /* I: prediction order */
+ silk_float *A, /* O prediction coefficients [order] */
+ const silk_float *rc, /* I reflection coefficients [order] */
+ opus_int32 order /* I prediction order */
);
/* Solve the normal equations using the Levinson-Durbin recursion */
-silk_float silk_levinsondurbin_FLP( /* O prediction error energy */
- silk_float A[], /* O prediction coefficients [order] */
- const silk_float corr[], /* I input auto-correlations [order + 1] */
- const opus_int order /* I prediction order */
+silk_float silk_levinsondurbin_FLP( /* O prediction error energy */
+ silk_float A[], /* O prediction coefficients [order] */
+ const silk_float corr[], /* I input auto-correlations [order + 1] */
+ const opus_int order /* I prediction order */
);
/* compute autocorrelation */
void silk_autocorrelation_FLP(
- silk_float *results, /* o result (length correlationCount) */
- const silk_float *inputData, /* i input data to correlate */
- opus_int inputDataSize, /* i length of input */
- opus_int correlationCount /* i number of correlation taps to compute */
+ silk_float *results, /* O result (length correlationCount) */
+ const silk_float *inputData, /* I input data to correlate */
+ opus_int inputDataSize, /* I length of input */
+ opus_int correlationCount /* I number of correlation taps to compute */
);
-/* Pitch estimator */
-#define SigProc_PE_MIN_COMPLEX 0
-#define SigProc_PE_MID_COMPLEX 1
-#define SigProc_PE_MAX_COMPLEX 2
-
-opus_int silk_pitch_analysis_core_FLP( /* O voicing estimate: 0 voiced, 1 unvoiced */
- const silk_float *signal, /* I signal of length PE_FRAME_LENGTH_MS*Fs_kHz */
- opus_int *pitch_out, /* O 4 pitch lag values */
- opus_int16 *lagIndex, /* O lag Index */
- opus_int8 *contourIndex, /* O pitch contour Index */
- silk_float *LTPCorr, /* I/O normalized correlation; input: value from previous frame */
- opus_int prevLag, /* I last lag of previous frame; set to zero is unvoiced */
- const silk_float search_thres1, /* I first stage threshold for lag candidates 0 - 1 */
- const silk_float search_thres2, /* I final threshold for lag candidates 0 - 1 */
- const opus_int Fs_kHz, /* I sample frequency (kHz) */
- const opus_int complexity, /* I Complexity setting, 0-2, where 2 is highest */
- const opus_int nb_subfr /* I number of 5 ms subframes */
+opus_int silk_pitch_analysis_core_FLP( /* O Voicing estimate: 0 voiced, 1 unvoiced */
+ const silk_float *frame, /* I Signal of length PE_FRAME_LENGTH_MS*Fs_kHz */
+ opus_int *pitch_out, /* O Pitch lag values [nb_subfr] */
+ opus_int16 *lagIndex, /* O Lag Index */
+ opus_int8 *contourIndex, /* O Pitch contour Index */
+ silk_float *LTPCorr, /* I/O Normalized correlation; input: value from previous frame */
+ opus_int prevLag, /* I Last lag of previous frame; set to zero is unvoiced */
+ const silk_float search_thres1, /* I First stage threshold for lag candidates 0 - 1 */
+ const silk_float search_thres2, /* I Final threshold for lag candidates 0 - 1 */
+ const opus_int Fs_kHz, /* I sample frequency (kHz) */
+ const opus_int complexity, /* I Complexity setting, 0-2, where 2 is highest */
+ const opus_int nb_subfr /* I Number of 5 ms subframes */
);
-#define PI (3.1415926536f)
-
void silk_insertion_sort_decreasing_FLP(
- silk_float *a, /* I/O: Unsorted / Sorted vector */
- opus_int *idx, /* O: Index vector for the sorted elements */
- const opus_int L, /* I: Vector length */
- const opus_int K /* I: Number of correctly sorted positions */
+ silk_float *a, /* I/O Unsorted / Sorted vector */
+ opus_int *idx, /* O Index vector for the sorted elements */
+ const opus_int L, /* I Vector length */
+ const opus_int K /* I Number of correctly sorted positions */
);
/* Compute reflection coefficients from input signal */
-silk_float silk_burg_modified_FLP( /* O returns residual energy */
- silk_float A[], /* O prediction coefficients (length order) */
- const silk_float x[], /* I input signal, length: nb_subfr*(D+L_sub) */
- const opus_int subfr_length, /* I input signal subframe length (including D preceeding samples) */
- const opus_int nb_subfr, /* I number of subframes stacked in x */
- const silk_float WhiteNoiseFrac, /* I fraction added to zero-lag autocorrelation */
- const opus_int D /* I order */
+silk_float silk_burg_modified_FLP( /* O returns residual energy */
+ silk_float A[], /* O prediction coefficients (length order) */
+ const silk_float x[], /* I input signal, length: nb_subfr*(D+L_sub) */
+ const opus_int subfr_length, /* I input signal subframe length (incl. D preceeding samples) */
+ const opus_int nb_subfr, /* I number of subframes stacked in x */
+ const silk_float WhiteNoiseFrac, /* I fraction added to zero-lag autocorrelation */
+ const opus_int D /* I order */
);
/* multiply a vector by a constant */
void silk_scale_vector_FLP(
- silk_float *data1,
- silk_float gain,
- opus_int dataSize
+ silk_float *data1,
+ silk_float gain,
+ opus_int dataSize
);
/* copy and multiply a vector by a constant */
void silk_scale_copy_vector_FLP(
- silk_float *data_out,
- const silk_float *data_in,
- silk_float gain,
- opus_int dataSize
+ silk_float *data_out,
+ const silk_float *data_in,
+ silk_float gain,
+ opus_int dataSize
);
/* inner product of two silk_float arrays, with result as double */
double silk_inner_product_FLP(
- const silk_float *data1,
- const silk_float *data2,
- opus_int dataSize
+ const silk_float *data1,
+ const silk_float *data2,
+ opus_int dataSize
);
/* sum of squares of a silk_float array, with result as double */
double silk_energy_FLP(
- const silk_float *data,
- opus_int dataSize
+ const silk_float *data,
+ opus_int dataSize
);
/********************************************************************/
-/* MACROS */
+/* MACROS */
/********************************************************************/
-#define silk_min_float(a, b) (((a) < (b)) ? (a) : (b))
-#define silk_max_float(a, b) (((a) > (b)) ? (a) : (b))
-#define silk_abs_float(a) ((silk_float)fabs(a))
+#define PI (3.1415926536f)
-#define silk_LIMIT_float( a, limit1, limit2) ((limit1) > (limit2) ? ((a) > (limit1) ? (limit1) : ((a) < (limit2) ? (limit2) : (a))) \
- : ((a) > (limit2) ? (limit2) : ((a) < (limit1) ? (limit1) : (a))))
+#define silk_min_float( a, b ) (((a) < (b)) ? (a) : (b))
+#define silk_max_float( a, b ) (((a) > (b)) ? (a) : (b))
+#define silk_abs_float( a ) ((silk_float)fabs(a))
+
+#define silk_LIMIT_float( a, limit1, limit2 ) ((limit1) > (limit2) ? ((a) > (limit1) ? (limit1) : ((a) < (limit2) ? (limit2) : (a))) \
+ : ((a) > (limit2) ? (limit2) : ((a) < (limit1) ? (limit1) : (a))))
/* sigmoid function */
-static inline silk_float silk_sigmoid(silk_float x)
+static inline silk_float silk_sigmoid( silk_float x )
{
return (silk_float)(1.0 / (1.0 + exp(-x)));
}
/* floating-point to integer conversion (rounding) */
-static inline opus_int32 silk_float2int(double x)
+static inline opus_int32 silk_float2int( double x )
{
#ifdef _WIN32
double t = x + 6755399441055744.0;
@@ -185,7 +180,7 @@
)
{
opus_int32 k;
- for (k = length-1; k >= 0; k--) {
+ for( k = length - 1; k >= 0; k-- ) {
#ifdef _WIN32
double t = in[k] + 6755399441055744.0;
out[k] = (opus_int16)silk_SAT16(*(( opus_int32 * )( &t )));
@@ -204,13 +199,16 @@
)
{
opus_int32 k;
- for (k = length-1; k >= 0; k--) {
+ for( k = length - 1; k >= 0; k-- ) {
out[k] = (silk_float)in[k];
}
}
/* using log2() helps the fixed-point conversion */
-static inline silk_float silk_log2( double x ) { return ( silk_float )( 3.32192809488736 * log10( x ) ); }
+static inline silk_float silk_log2( double x )
+{
+ return ( silk_float )( 3.32192809488736 * log10( x ) );
+}
#ifdef __cplusplus
}
diff --git a/silk/float/apply_sine_window_FLP.c b/silk/float/apply_sine_window_FLP.c
index 4de05dd..d334e9d 100644
--- a/silk/float/apply_sine_window_FLP.c
+++ b/silk/float/apply_sine_window_FLP.c
@@ -31,15 +31,15 @@
#include "main_FLP.h"
-/* Apply sine window to signal vector. */
-/* Window types: */
-/* 1 -> sine window from 0 to pi/2 */
-/* 2 -> sine window from pi/2 to pi */
+/* 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 */
+ 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 */
)
{
opus_int k;
diff --git a/silk/float/autocorrelation_FLP.c b/silk/float/autocorrelation_FLP.c
index 89c016d..8d38811 100644
--- a/silk/float/autocorrelation_FLP.c
+++ b/silk/float/autocorrelation_FLP.c
@@ -34,15 +34,15 @@
/* compute autocorrelation */
void silk_autocorrelation_FLP(
- silk_float *results, /* O result (length correlationCount) */
- const silk_float *inputData, /* I input data to correlate */
- opus_int inputDataSize, /* I length of input */
- opus_int correlationCount /* I number of correlation taps to compute */
+ silk_float *results, /* O result (length correlationCount) */
+ const silk_float *inputData, /* I input data to correlate */
+ opus_int inputDataSize, /* I length of input */
+ opus_int correlationCount /* I number of correlation taps to compute */
)
{
opus_int i;
- if ( correlationCount > inputDataSize ) {
+ if( correlationCount > inputDataSize ) {
correlationCount = inputDataSize;
}
diff --git a/silk/float/burg_modified_FLP.c b/silk/float/burg_modified_FLP.c
index afda450..b5862a5 100644
--- a/silk/float/burg_modified_FLP.c
+++ b/silk/float/burg_modified_FLP.c
@@ -35,13 +35,13 @@
#define MAX_NB_SUBFR 4
/* Compute reflection coefficients from input signal */
-silk_float silk_burg_modified_FLP( /* O returns residual energy */
- silk_float A[], /* O prediction coefficients (length order) */
- const silk_float x[], /* I input signal, length: nb_subfr*(D+L_sub) */
- const opus_int subfr_length, /* I input signal subframe length (including D preceeding samples) */
- const opus_int nb_subfr, /* I number of subframes stacked in x */
- const silk_float WhiteNoiseFrac, /* I fraction added to zero-lag autocorrelation */
- const opus_int D /* I order */
+silk_float silk_burg_modified_FLP( /* O returns residual energy */
+ silk_float A[], /* O prediction coefficients (length order) */
+ const silk_float x[], /* I input signal, length: nb_subfr*(D+L_sub) */
+ const opus_int subfr_length, /* I input signal subframe length (incl. D preceeding samples) */
+ const opus_int nb_subfr, /* I number of subframes stacked in x */
+ const silk_float WhiteNoiseFrac, /* I fraction added to zero-lag autocorrelation */
+ const opus_int D /* I order */
)
{
opus_int k, n, s;
diff --git a/silk/float/bwexpander_FLP.c b/silk/float/bwexpander_FLP.c
index 6b6acf0..1642b4b 100644
--- a/silk/float/bwexpander_FLP.c
+++ b/silk/float/bwexpander_FLP.c
@@ -31,12 +31,11 @@
#include "SigProc_FLP.h"
-
/* Chirp (bw expand) LP AR filter */
void silk_bwexpander_FLP(
- silk_float *ar, /* I/O AR filter to be expanded (without leading 1) */
- const opus_int d, /* I length of ar */
- const silk_float chirp /* I chirp factor (typically in range (0..1) ) */
+ silk_float *ar, /* I/O AR filter to be expanded (without leading 1) */
+ const opus_int d, /* I length of ar */
+ const silk_float chirp /* I chirp factor (typically in range (0..1) ) */
)
{
opus_int i;
diff --git a/silk/float/corrMatrix_FLP.c b/silk/float/corrMatrix_FLP.c
index 56ea1cd..9de00d3 100644
--- a/silk/float/corrMatrix_FLP.c
+++ b/silk/float/corrMatrix_FLP.c
@@ -37,11 +37,11 @@
/* 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] */
+ 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] */
)
{
opus_int lag;
@@ -57,10 +57,10 @@
/* 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] */
+ 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] */
)
{
opus_int j, lag;
diff --git a/silk/float/encode_frame_FLP.c b/silk/float/encode_frame_FLP.c
index 717b1e0..08f3aa8 100644
--- a/silk/float/encode_frame_FLP.c
+++ b/silk/float/encode_frame_FLP.c
@@ -32,24 +32,22 @@
#include "main_FLP.h"
#include "tuning_parameters.h"
-/* Low Bitrate Redundancy (LBRR) encoding. Reuse all parameters but encode with lower bitrate */
+/* Low Bitrate Redundancy (LBRR) encoding. Reuse all parameters but encode with lower bitrate */
static inline void silk_LBRR_encode_FLP(
- silk_encoder_state_FLP *psEnc, /* I/O Encoder state FLP */
- silk_encoder_control_FLP *psEncCtrl, /* I/O Encoder control FLP */
- const silk_float xfw[], /* I Input signal */
- opus_int condCoding /* I The type of conditional coding used so far for this frame */
+ silk_encoder_state_FLP *psEnc, /* I/O Encoder state FLP */
+ silk_encoder_control_FLP *psEncCtrl, /* I/O Encoder control FLP */
+ const silk_float xfw[], /* I Input signal */
+ opus_int condCoding /* I The type of conditional coding used so far for this frame */
);
void silk_encode_do_VAD_FLP(
- silk_encoder_state_FLP *psEnc /* I/O Encoder state FLP */
+ silk_encoder_state_FLP *psEnc /* I/O Encoder state FLP */
)
{
/****************************/
/* Voice Activity Detection */
/****************************/
-TIC(VAD)
silk_VAD_GetSA_Q8( &psEnc->sCmn, psEnc->sCmn.inputBuf + 1 );
-TOC(VAD)
/**************************************************/
/* Convert speech activity into VAD and DTX flags */
@@ -79,12 +77,12 @@
/* Encode frame */
/****************/
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 */
+ 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 */
)
{
silk_encoder_control_FLP sEncCtrl;
@@ -103,10 +101,7 @@
opus_int32 pGains_Q16[ MAX_NB_SUBFR ];
opus_uint8 ec_buf_copy[ 1275 ];
-TIC(ENCODE_FRAME)
-
- /* This is totally unnecessary but many compilers (including gcc) are too dumb
- to realise it */
+ /* This is totally unnecessary but many compilers (including gcc) are too dumb to realise it */
LastGainIndex_copy2 = nBits_lower = nBits_upper = gainMult_lower = gainMult_upper = 0;
psEnc->sCmn.indices.Seed = psEnc->sCmn.frameCounter++ & 3;
@@ -136,50 +131,35 @@
/*****************************************/
/* Find pitch lags, initial LPC analysis */
/*****************************************/
-TIC(FIND_PITCH)
silk_find_pitch_lags_FLP( psEnc, &sEncCtrl, res_pitch, x_frame );
-TOC(FIND_PITCH)
/************************/
/* Noise shape analysis */
/************************/
-TIC(NOISE_SHAPE_ANALYSIS)
silk_noise_shape_analysis_FLP( psEnc, &sEncCtrl, res_pitch_frame, x_frame );
-TOC(NOISE_SHAPE_ANALYSIS)
/***************************************************/
/* Find linear prediction coefficients (LPC + LTP) */
/***************************************************/
-TIC(FIND_PRED_COEF)
silk_find_pred_coefs_FLP( psEnc, &sEncCtrl, res_pitch, x_frame, condCoding );
-TOC(FIND_PRED_COEF)
/****************************************/
/* Process gains */
/****************************************/
-TIC(PROCESS_GAINS)
silk_process_gains_FLP( psEnc, &sEncCtrl, condCoding );
-TOC(PROCESS_GAINS)
/*****************************************/
/* Prefiltering for noise shaper */
/*****************************************/
-TIC(PREFILTER)
silk_prefilter_FLP( psEnc, &sEncCtrl, xfw, x_frame );
-TOC(PREFILTER)
/****************************************/
/* Low Bitrate Redundant Encoding */
/****************************************/
-TIC(LBRR)
silk_LBRR_encode_FLP( psEnc, &sEncCtrl, xfw, condCoding );
-TOC(LBRR)
- if ( psEnc->sCmn.prefillFlag )
- {
-TIC(NSQ)
+ if( psEnc->sCmn.prefillFlag ) {
silk_NSQ_wrapper_FLP( psEnc, &sEncCtrl, &psEnc->sCmn.indices, &psEnc->sCmn.sNSQ, psEnc->sCmn.pulses, xfw );
-TOC(NSQ)
} else {
/* Loop over quantizer and entroy coding to control bitrate */
maxIter = 5;
@@ -213,24 +193,18 @@
/*****************************************/
/* Noise shaping quantization */
/*****************************************/
-TIC(NSQ)
silk_NSQ_wrapper_FLP( psEnc, &sEncCtrl, &psEnc->sCmn.indices, &psEnc->sCmn.sNSQ, psEnc->sCmn.pulses, xfw );
-TOC(NSQ)
/****************************************/
/* Encode Parameters */
/****************************************/
-TIC(ENCODE_PARAMS)
silk_encode_indices( &psEnc->sCmn, psRangeEnc, psEnc->sCmn.nFramesEncoded, 0, condCoding );
-TOC(ENCODE_PARAMS)
/****************************************/
/* Encode Excitation Signal */
/****************************************/
-TIC(ENCODE_PULSES)
silk_encode_pulses( psRangeEnc, psEnc->sCmn.indices.signalType, psEnc->sCmn.indices.quantOffsetType,
psEnc->sCmn.pulses, psEnc->sCmn.frame_length );
-TOC(ENCODE_PULSES)
nBits = ec_tell( psRangeEnc );
@@ -343,32 +317,15 @@
/* Payload size */
*pnBytesOut = silk_RSHIFT( ec_tell( psRangeEnc ) + 7, 3 );
-TOC(ENCODE_FRAME)
-
-#ifdef SAVE_ALL_INTERNAL_DATA
- DEBUG_STORE_DATA( pitchL.dat, sEncCtrl.pitchL, MAX_NB_SUBFR * sizeof( opus_int ) );
- DEBUG_STORE_DATA( pitchG_quantized.dat, sEncCtrl.LTPCoef, psEnc->sCmn.nb_subfr * LTP_ORDER * sizeof( silk_float ) );
- DEBUG_STORE_DATA( LTPcorr.dat, &psEnc->LTPCorr, sizeof( silk_float ) );
- DEBUG_STORE_DATA( gains.dat, sEncCtrl.Gains, psEnc->sCmn.nb_subfr * sizeof( silk_float ) );
- DEBUG_STORE_DATA( gains_indices.dat, &psEnc->sCmn.indices.GainsIndices, psEnc->sCmn.nb_subfr * sizeof( opus_int8 ) );
- DEBUG_STORE_DATA( quantOffsetType.dat, &psEnc->sCmn.indices.quantOffsetType, sizeof( opus_int8 ) );
- DEBUG_STORE_DATA( speech_activity_q8.dat, &psEnc->sCmn.speech_activity_Q8, sizeof( opus_int ) );
- DEBUG_STORE_DATA( signalType.dat, &psEnc->sCmn.indices.signalType, sizeof( opus_int8 ) );
- DEBUG_STORE_DATA( lag_index.dat, &psEnc->sCmn.indices.lagIndex, sizeof( opus_int16 ) );
- DEBUG_STORE_DATA( contour_index.dat, &psEnc->sCmn.indices.contourIndex, sizeof( opus_int8 ) );
- DEBUG_STORE_DATA( per_index.dat, &psEnc->sCmn.indices.PERIndex, sizeof( opus_int8 ) );
- DEBUG_STORE_DATA( PredCoef.dat, &sEncCtrl.PredCoef[ 1 ], psEnc->sCmn.predictLPCOrder * sizeof( silk_float ) );
- DEBUG_STORE_DATA( ltp_scale_idx.dat, &psEnc->sCmn.indices.LTP_scaleIndex, sizeof( opus_int8 ) );
-#endif
return ret;
}
/* Low-Bitrate Redundancy (LBRR) encoding. Reuse all parameters but encode excitation at lower bitrate */
static inline void silk_LBRR_encode_FLP(
- silk_encoder_state_FLP *psEnc, /* I/O Encoder state FLP */
- silk_encoder_control_FLP *psEncCtrl, /* I/O Encoder control FLP */
- const silk_float xfw[], /* I Input signal */
- opus_int condCoding /* I The type of conditional coding used so far for this frame */
+ silk_encoder_state_FLP *psEnc, /* I/O Encoder state FLP */
+ silk_encoder_control_FLP *psEncCtrl, /* I/O Encoder control FLP */
+ const silk_float xfw[], /* I Input signal */
+ opus_int condCoding /* I The type of conditional coding used so far for this frame */
)
{
opus_int k;
diff --git a/silk/float/energy_FLP.c b/silk/float/energy_FLP.c
index f43143d..19f902c 100644
--- a/silk/float/energy_FLP.c
+++ b/silk/float/energy_FLP.c
@@ -33,8 +33,8 @@
/* sum of squares of a silk_float array, with result as double */
double silk_energy_FLP(
- const silk_float *data,
- opus_int dataSize
+ const silk_float *data,
+ opus_int dataSize
)
{
opus_int i, dataSize4;
diff --git a/silk/float/find_LPC_FLP.c b/silk/float/find_LPC_FLP.c
index 18373fb..23de2e7 100644
--- a/silk/float/find_LPC_FLP.c
+++ b/silk/float/find_LPC_FLP.c
@@ -33,15 +33,15 @@
#include "tuning_parameters.h"
void silk_find_LPC_FLP(
- opus_int16 NLSF_Q15[], /* O NLSFs */
- opus_int8 *interpIndex, /* O NLSF interp. index for NLSF interp. */
- const opus_int16 prev_NLSFq_Q15[], /* I Previous NLSFs, for NLSF interpolation */
- const opus_int useInterpNLSFs, /* I Flag */
- const opus_int firstFrameAfterReset, /* I Flag */
- const opus_int LPC_order, /* I LPC order */
- const silk_float x[], /* I Input signal */
- const opus_int subfr_length, /* I Subframe length incl preceeding samples */
- const opus_int nb_subfr /* I: Number of subframes */
+ opus_int16 NLSF_Q15[], /* O NLSFs */
+ opus_int8 *interpIndex, /* O NLSF interp. index for NLSF interp. */
+ const opus_int16 prev_NLSFq_Q15[], /* I Previous NLSFs, for NLSF interpolation */
+ const opus_int useInterpNLSFs, /* I Flag */
+ const opus_int firstFrameAfterReset, /* I Flag */
+ const opus_int LPC_order, /* I LPC order */
+ const silk_float x[], /* I Input signal */
+ const opus_int subfr_length, /* I Subframe length incl preceeding samples */
+ const opus_int nb_subfr /* I Number of subframes */
)
{
opus_int k;
diff --git a/silk/float/find_LTP_FLP.c b/silk/float/find_LTP_FLP.c
index a95f564..4caf4d2 100644
--- a/silk/float/find_LTP_FLP.c
+++ b/silk/float/find_LTP_FLP.c
@@ -33,15 +33,15 @@
#include "tuning_parameters.h"
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 */
+ 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 */
)
{
opus_int i, k;
diff --git a/silk/float/find_pitch_lags_FLP.c b/silk/float/find_pitch_lags_FLP.c
index b37c0ff..43f7ff9 100644
--- a/silk/float/find_pitch_lags_FLP.c
+++ b/silk/float/find_pitch_lags_FLP.c
@@ -34,10 +34,10 @@
#include "tuning_parameters.h"
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 */
+ 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 */
)
{
opus_int buf_len;
diff --git a/silk/float/find_pred_coefs_FLP.c b/silk/float/find_pred_coefs_FLP.c
index 90a4e46..03500c2 100644
--- a/silk/float/find_pred_coefs_FLP.c
+++ b/silk/float/find_pred_coefs_FLP.c
@@ -31,13 +31,13 @@
#include "main_FLP.h"
-
+/* 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 */
+ 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 */
)
{
opus_int i;
@@ -64,11 +64,6 @@
silk_find_LTP_FLP( psEncCtrl->LTPCoef, WLTP, &psEncCtrl->LTPredCodGain, res_pitch,
psEncCtrl->pitchL, Wght, psEnc->sCmn.subfr_length, psEnc->sCmn.nb_subfr, psEnc->sCmn.ltp_mem_length );
-#ifdef SAVE_ALL_INTERNAL_DATA
- DEBUG_STORE_DATA( ltp_gains.dat, psEncCtrl->LTPCoef, sizeof( psEncCtrl->LTPCoef ) );
- DEBUG_STORE_DATA( ltp_weights.dat, WLTP, sizeof( WLTP ) );
-#endif
-
/* Quantize LTP gain parameters */
silk_quant_LTP_gains_FLP( psEncCtrl->LTPCoef, psEnc->sCmn.indices.LTPIndex, &psEnc->sCmn.indices.PERIndex,
WLTP, psEnc->sCmn.mu_LTP_Q9, psEnc->sCmn.LTPQuantLowComplexity, psEnc->sCmn.nb_subfr );
@@ -104,9 +99,7 @@
LPC_in_pre, psEnc->sCmn.subfr_length + psEnc->sCmn.predictLPCOrder, psEnc->sCmn.nb_subfr );
/* Quantize LSFs */
-TIC(LSF_quant);
silk_process_NLSFs_FLP( &psEnc->sCmn, psEncCtrl->PredCoef, NLSF_Q15, psEnc->sCmn.prev_NLSFq_Q15 );
-TOC(LSF_quant);
/* Calculate residual energy using quantized LPC coefficients */
silk_residual_energy_FLP( psEncCtrl->ResNrg, LPC_in_pre, psEncCtrl->PredCoef, psEncCtrl->Gains,
diff --git a/silk/float/inner_product_FLP.c b/silk/float/inner_product_FLP.c
index a8f04d7..0e4ebb2 100644
--- a/silk/float/inner_product_FLP.c
+++ b/silk/float/inner_product_FLP.c
@@ -31,11 +31,11 @@
#include "SigProc_FLP.h"
-/* inner product of two silk_float arrays, with result as double */
-double silk_inner_product_FLP( /* O result */
- const silk_float *data1, /* I vector 1 */
- const silk_float *data2, /* I vector 2 */
- opus_int dataSize /* I length of vectors */
+/* inner product of two silk_float arrays, with result as double */
+double silk_inner_product_FLP(
+ const silk_float *data1,
+ const silk_float *data2,
+ opus_int dataSize
)
{
opus_int i, dataSize4;
diff --git a/silk/float/k2a_FLP.c b/silk/float/k2a_FLP.c
index 8884b8d..8702bc7 100644
--- a/silk/float/k2a_FLP.c
+++ b/silk/float/k2a_FLP.c
@@ -33,16 +33,16 @@
/* step up function, converts reflection coefficients to prediction coefficients */
void silk_k2a_FLP(
- silk_float *A, /* O: prediction coefficients [order] */
- const silk_float *rc, /* I: reflection coefficients [order] */
- opus_int32 order /* I: prediction order */
+ silk_float *A, /* O prediction coefficients [order] */
+ const silk_float *rc, /* I reflection coefficients [order] */
+ opus_int32 order /* I prediction order */
)
{
opus_int k, n;
silk_float Atmp[ SILK_MAX_ORDER_LPC ];
- for( k = 0; k < order; k++ ){
- for( n = 0; n < k; n++ ){
+ for( k = 0; k < order; k++ ) {
+ for( n = 0; n < k; n++ ) {
Atmp[ n ] = A[ n ];
}
for( n = 0; n < k; n++ ) {
diff --git a/silk/float/levinsondurbin_FLP.c b/silk/float/levinsondurbin_FLP.c
index 813b117..a6bb59a 100644
--- a/silk/float/levinsondurbin_FLP.c
+++ b/silk/float/levinsondurbin_FLP.c
@@ -32,10 +32,10 @@
#include "SigProc_FLP.h"
/* Solve the normal equations using the Levinson-Durbin recursion */
-silk_float silk_levinsondurbin_FLP( /* O prediction error energy */
- silk_float A[], /* O prediction coefficients [order] */
- const silk_float corr[], /* I input auto-correlations [order + 1] */
- const opus_int order /* I prediction order */
+silk_float silk_levinsondurbin_FLP( /* O prediction error energy */
+ silk_float A[], /* O prediction coefficients [order] */
+ const silk_float corr[], /* I input auto-correlations [order + 1] */
+ const opus_int order /* I prediction order */
)
{
opus_int i, mHalf, m;
diff --git a/silk/float/main_FLP.h b/silk/float/main_FLP.h
index 07e31ab..d288900 100644
--- a/silk/float/main_FLP.h
+++ b/silk/float/main_FLP.h
@@ -51,47 +51,47 @@
/* 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 */
+ 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 */
+ 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 */
+ 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 */
+ 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
+ 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 */
+ 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 */
);
/**************************/
@@ -99,26 +99,26 @@
/**************************/
/* 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] */
+ 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) */
+ 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 */
+ 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 */
);
/**********************************************/
@@ -126,127 +126,104 @@
/**********************************************/
/* 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 */
+ 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 */
+ 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(
- opus_int16 NLSF_Q15[], /* O NLSFs */
- opus_int8 *interpIndex, /* O NLSF interp. index for NLSF interp. */
- const opus_int16 prev_NLSFq_Q15[], /* I Previous NLSFs, for NLSF interpolation */
- const opus_int useInterpNLSFs, /* I Flag */
- const opus_int firstFrameAfterReset, /* I Flag */
- const opus_int LPC_order, /* I LPC order */
- const silk_float x[], /* I Input signal */
- const opus_int subfr_length, /* I Subframe length incl preceeding samples */
- const opus_int nb_subfr /* I: Number of subframes */
+ opus_int16 NLSF_Q15[], /* O NLSFs */
+ opus_int8 *interpIndex, /* O NLSF interp. index for NLSF interp. */
+ const opus_int16 prev_NLSFq_Q15[], /* I Previous NLSFs, for NLSF interpolation */
+ const opus_int useInterpNLSFs, /* I Flag */
+ const opus_int firstFrameAfterReset, /* I Flag */
+ const opus_int LPC_order, /* I LPC order */
+ const silk_float x[], /* I Input signal */
+ const opus_int subfr_length, /* I Subframe length incl preceeding samples */
+ const opus_int nb_subfr /* I Number of subframes */
);
/* 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 */
+ 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 preceeding 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 Preceeding samples for each subframe */
+ silk_float *LTP_res, /* O LTP res MAX_NB_SUBFR*(pre_lgth+subfr_lngth) */
+ const silk_float *x, /* I Input signal, with preceeding 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 Preceeding samples for each subframe */
);
/* Calculates residual energies of input subframes where all subframes have LPC_order */
/* of preceeding 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 */
+ 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 */
+ 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 */
-);
-
-/******************/
-/* NLSF Quantizer */
-/******************/
-/* 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)) */
+ 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 */
-);
-
-/* Entropy constrained MATRIX-weighted VQ, for a single input data vector */
-void silk_VQ_WMat_EC_FLP(
- opus_int *ind, /* O Index of best codebook vector */
- silk_float *rate_dist, /* O Best weighted quant. error + mu * rate */
- const silk_float *in, /* I Input vector to be quantized */
- const silk_float *W, /* I Weighting matrix */
- const opus_int16 *cb, /* I Codebook */
- const opus_int16 *cl_Q6, /* I Code length for each codebook vector */
- const silk_float mu, /* I Tradeoff between WSSE and rate */
- const opus_int L /* I Number of vectors in codebook */
+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 */
+ 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 */
);
/******************/
@@ -254,74 +231,80 @@
/******************/
/* 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] */
+ 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] */
+ 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 */
+ 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 */
+ 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 */
+/* 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 */
+ 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 */
+ 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 */
+ 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 */
+ 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
diff --git a/silk/float/noise_shape_analysis_FLP.c b/silk/float/noise_shape_analysis_FLP.c
index 4d82858..e19ff70 100644
--- a/silk/float/noise_shape_analysis_FLP.c
+++ b/silk/float/noise_shape_analysis_FLP.c
@@ -124,10 +124,10 @@
/* 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] */
+ 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] */
)
{
silk_shape_state_FLP *psShapeSt = &psEnc->sShape;
diff --git a/silk/float/pitch_analysis_core_FLP.c b/silk/float/pitch_analysis_core_FLP.c
index 4108d63..a4d39a7 100644
--- a/silk/float/pitch_analysis_core_FLP.c
+++ b/silk/float/pitch_analysis_core_FLP.c
@@ -30,59 +30,51 @@
#endif
/*****************************************************************************
-*
* Pitch analyser function
-*
******************************************************************************/
#include "SigProc_FLP.h"
#include "SigProc_FIX.h"
#include "pitch_est_defines.h"
-#define SCRATCH_SIZE 22
-
-/************************************************************/
-/* Definitions */
-/************************************************************/
-#define eps 1.192092896e-07f
+#define SCRATCH_SIZE 22
+#define eps 1.192092896e-07f
/************************************************************/
/* Internally used functions */
/************************************************************/
static void silk_P_Ana_calc_corr_st3(
silk_float cross_corr_st3[ PE_MAX_NB_SUBFR ][ PE_NB_CBKS_STAGE3_MAX ][ PE_NB_STAGE3_LAGS ], /* O 3 DIM correlation array */
- const silk_float frame[], /* I vector to correlate */
- opus_int start_lag, /* I start lag */
- opus_int sf_length, /* I sub frame length */
- opus_int nb_subfr, /* I number of subframes */
- opus_int complexity /* I Complexity setting */
+ const silk_float frame[], /* I vector to correlate */
+ opus_int start_lag, /* I start lag */
+ opus_int sf_length, /* I sub frame length */
+ opus_int nb_subfr, /* I number of subframes */
+ opus_int complexity /* I Complexity setting */
);
static void silk_P_Ana_calc_energy_st3(
silk_float energies_st3[ PE_MAX_NB_SUBFR ][ PE_NB_CBKS_STAGE3_MAX ][ PE_NB_STAGE3_LAGS ], /* O 3 DIM correlation array */
- const silk_float frame[], /* I vector to correlate */
- opus_int start_lag, /* I start lag */
- opus_int sf_length, /* I sub frame length */
- opus_int nb_subfr, /* I number of subframes */
- opus_int complexity /* I Complexity setting */
+ const silk_float frame[], /* I vector to correlate */
+ opus_int start_lag, /* I start lag */
+ opus_int sf_length, /* I sub frame length */
+ opus_int nb_subfr, /* I number of subframes */
+ opus_int complexity /* I Complexity setting */
);
-/*
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-% CORE PITCH ANALYSIS FUNCTION %
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-*/
-opus_int silk_pitch_analysis_core_FLP( /* O voicing estimate: 0 voiced, 1 unvoiced */
- const silk_float *frame, /* I signal of length PE_FRAME_LENGTH_MS*Fs_kHz */
- opus_int *pitch_out, /* O 4 pitch lag values */
- opus_int16 *lagIndex, /* O lag Index */
- opus_int8 *contourIndex, /* O pitch contour Index */
- silk_float *LTPCorr, /* I/O normalized correlation; input: value from previous frame */
- opus_int prevLag, /* I last lag of previous frame; set to zero is unvoiced */
- const silk_float search_thres1, /* I first stage threshold for lag candidates 0 - 1 */
- const silk_float search_thres2, /* I final threshold for lag candidates 0 - 1 */
- const opus_int Fs_kHz, /* I sample frequency (kHz) */
- const opus_int complexity, /* I Complexity setting, 0-2, where 2 is highest */
- const opus_int nb_subfr /* I number of 5 ms subframes */
+/************************************************************/
+/* CORE PITCH ANALYSIS FUNCTION */
+/************************************************************/
+opus_int silk_pitch_analysis_core_FLP( /* O Voicing estimate: 0 voiced, 1 unvoiced */
+ const silk_float *frame, /* I Signal of length PE_FRAME_LENGTH_MS*Fs_kHz */
+ opus_int *pitch_out, /* O Pitch lag values [nb_subfr] */
+ opus_int16 *lagIndex, /* O Lag Index */
+ opus_int8 *contourIndex, /* O Pitch contour Index */
+ silk_float *LTPCorr, /* I/O Normalized correlation; input: value from previous frame */
+ opus_int prevLag, /* I Last lag of previous frame; set to zero is unvoiced */
+ const silk_float search_thres1, /* I First stage threshold for lag candidates 0 - 1 */
+ const silk_float search_thres2, /* I Final threshold for lag candidates 0 - 1 */
+ const opus_int Fs_kHz, /* I sample frequency (kHz) */
+ const opus_int complexity, /* I Complexity setting, 0-2, where 2 is highest */
+ const opus_int nb_subfr /* I Number of 5 ms subframes */
)
{
opus_int i, k, d, j;
@@ -117,8 +109,8 @@
silk_assert( Fs_kHz == 8 || Fs_kHz == 12 || Fs_kHz == 16 );
/* Check for valid complexity setting */
- silk_assert( complexity >= SigProc_PE_MIN_COMPLEX );
- silk_assert( complexity <= SigProc_PE_MAX_COMPLEX );
+ silk_assert( complexity >= SILK_PE_MIN_COMPLEX );
+ silk_assert( complexity <= SILK_PE_MAX_COMPLEX );
silk_assert( search_thres1 >= 0.0f && search_thres1 <= 1.0f );
silk_assert( search_thres2 >= 0.0f && search_thres2 <= 1.0f );
@@ -301,7 +293,7 @@
basis_ptr = target_ptr - d;
cross_corr = silk_inner_product_FLP( basis_ptr, target_ptr, sf_length_8kHz );
energy = silk_energy_FLP( basis_ptr, sf_length_8kHz );
- if (cross_corr > 0.0f) {
+ if( cross_corr > 0.0f ) {
C[ k ][ d ] = (silk_float)(cross_corr * cross_corr / (energy * energy_tmp + eps));
} else {
C[ k ][ d ] = 0.0f;
@@ -334,7 +326,7 @@
if( nb_subfr == PE_MAX_NB_SUBFR ) {
cbk_size = PE_NB_CBKS_STAGE2_EXT;
Lag_CB_ptr = &silk_CB_lags_stage2[ 0 ][ 0 ];
- if( Fs_kHz == 8 && complexity > SigProc_PE_MIN_COMPLEX ) {
+ if( Fs_kHz == 8 && complexity > SILK_PE_MIN_COMPLEX ) {
/* If input is 8 khz use a larger codebook here because it is last stage */
nb_cbk_search = PE_NB_CBKS_STAGE2_EXT;
} else {
@@ -372,16 +364,16 @@
CCmax_new_b -= PE_SHORTLAG_BIAS * nb_subfr * lag_log2;
/* Bias towards previous lag */
- if ( prevLag > 0 ) {
+ if( prevLag > 0 ) {
delta_lag_log2_sqr = lag_log2 - prevLag_log2;
delta_lag_log2_sqr *= delta_lag_log2_sqr;
CCmax_new_b -= PE_PREVLAG_BIAS * nb_subfr * (*LTPCorr) * delta_lag_log2_sqr / (delta_lag_log2_sqr + 0.5f);
}
- if ( CCmax_new_b > CCmax_b && /* Find maximum biased correlation */
- CCmax_new > nb_subfr * search_thres2 * search_thres2 && /* Correlation needs to be high enough to be voiced */
- silk_CB_lags_stage2[ 0 ][ CBimax_new ] <= min_lag_8kHz /* Lag must be in range */
- ) {
+ if( CCmax_new_b > CCmax_b && /* Find maximum biased correlation */
+ CCmax_new > nb_subfr * search_thres2 * search_thres2 && /* Correlation needs to be high enough to be voiced */
+ silk_CB_lags_stage2[ 0 ][ CBimax_new ] <= min_lag_8kHz /* Lag must be in range */
+ ) {
CCmax_b = CCmax_new_b;
CCmax = CCmax_new;
lag = d;
@@ -415,7 +407,7 @@
lag_new = lag; /* to avoid undefined lag */
CBimax = 0; /* to avoid undefined lag */
silk_assert( CCmax >= 0.0f );
- *LTPCorr = (silk_float)sqrt( CCmax / nb_subfr ); /* Output normalized correlation */
+ *LTPCorr = (silk_float)sqrt( CCmax / nb_subfr ); /* Output normalized correlation */
CCmax = -1000.0f;
@@ -489,11 +481,11 @@
static void silk_P_Ana_calc_corr_st3(
silk_float cross_corr_st3[ PE_MAX_NB_SUBFR ][ PE_NB_CBKS_STAGE3_MAX ][ PE_NB_STAGE3_LAGS ], /* O 3 DIM correlation array */
- const silk_float frame[], /* I vector to correlate */
- opus_int start_lag, /* I start lag */
- opus_int sf_length, /* I sub frame length */
- opus_int nb_subfr, /* I number of subframes */
- opus_int complexity /* I Complexity setting */
+ const silk_float frame[], /* I vector to correlate */
+ opus_int start_lag, /* I start lag */
+ opus_int sf_length, /* I sub frame length */
+ opus_int nb_subfr, /* I number of subframes */
+ opus_int complexity /* I Complexity setting */
)
/***********************************************************************
Calculates the correlations used in stage 3 search. In order to cover
@@ -515,10 +507,10 @@
silk_float scratch_mem[ SCRATCH_SIZE ];
const opus_int8 *Lag_range_ptr, *Lag_CB_ptr;
- silk_assert( complexity >= SigProc_PE_MIN_COMPLEX );
- silk_assert( complexity <= SigProc_PE_MAX_COMPLEX );
+ silk_assert( complexity >= SILK_PE_MIN_COMPLEX );
+ silk_assert( complexity <= SILK_PE_MAX_COMPLEX );
- if( nb_subfr == PE_MAX_NB_SUBFR ){
+ if( nb_subfr == PE_MAX_NB_SUBFR ) {
Lag_range_ptr = &silk_Lag_range_stage3[ complexity ][ 0 ][ 0 ];
Lag_CB_ptr = &silk_CB_lags_stage3[ 0 ][ 0 ];
nb_cbk_search = silk_nb_cbk_searchs_stage3[ complexity ];
@@ -562,11 +554,11 @@
static void silk_P_Ana_calc_energy_st3(
silk_float energies_st3[ PE_MAX_NB_SUBFR ][ PE_NB_CBKS_STAGE3_MAX ][ PE_NB_STAGE3_LAGS ], /* O 3 DIM correlation array */
- const silk_float frame[], /* I vector to correlate */
- opus_int start_lag, /* I start lag */
- opus_int sf_length, /* I sub frame length */
- opus_int nb_subfr, /* I number of subframes */
- opus_int complexity /* I Complexity setting */
+ const silk_float frame[], /* I vector to correlate */
+ opus_int start_lag, /* I start lag */
+ opus_int sf_length, /* I sub frame length */
+ opus_int nb_subfr, /* I number of subframes */
+ opus_int complexity /* I Complexity setting */
)
/****************************************************************
Calculate the energies for first two subframes. The energies are
@@ -580,10 +572,10 @@
silk_float scratch_mem[ SCRATCH_SIZE ];
const opus_int8 *Lag_range_ptr, *Lag_CB_ptr;
- silk_assert( complexity >= SigProc_PE_MIN_COMPLEX );
- silk_assert( complexity <= SigProc_PE_MAX_COMPLEX );
+ silk_assert( complexity >= SILK_PE_MIN_COMPLEX );
+ silk_assert( complexity <= SILK_PE_MAX_COMPLEX );
- if( nb_subfr == PE_MAX_NB_SUBFR ){
+ if( nb_subfr == PE_MAX_NB_SUBFR ) {
Lag_range_ptr = &silk_Lag_range_stage3[ complexity ][ 0 ][ 0 ];
Lag_CB_ptr = &silk_CB_lags_stage3[ 0 ][ 0 ];
nb_cbk_search = silk_nb_cbk_searchs_stage3[ complexity ];
diff --git a/silk/float/prefilter_FLP.c b/silk/float/prefilter_FLP.c
index 9f16e2d..3dcf7b5 100644
--- a/silk/float/prefilter_FLP.c
+++ b/silk/float/prefilter_FLP.c
@@ -33,18 +33,18 @@
#include "tuning_parameters.h"
/*
-* silk_prefilter. Prefilter for finding Quantizer input signal
+* Prefilter for finding Quantizer input signal
*/
static inline void silk_prefilt_FLP(
- silk_prefilter_state_FLP *P,/* I/O state */
- silk_float st_res[], /* I */
- silk_float xw[], /* O */
- silk_float *HarmShapeFIR, /* I */
- silk_float Tilt, /* I */
- silk_float LF_MA_shp, /* I */
- silk_float LF_AR_shp, /* I */
- opus_int lag, /* I */
- opus_int length /* I */
+ silk_prefilter_state_FLP *P, /* I/O state */
+ silk_float st_res[], /* I */
+ silk_float xw[], /* O */
+ silk_float *HarmShapeFIR, /* I */
+ silk_float Tilt, /* I */
+ silk_float LF_MA_shp, /* I */
+ silk_float LF_AR_shp, /* I */
+ opus_int lag, /* I */
+ opus_int length /* I */
);
void silk_warped_LPC_analysis_filter_FLP(
@@ -92,10 +92,10 @@
* silk_prefilter. Main prefilter function
*/
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 */
+ 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 */
)
{
silk_prefilter_state_FLP *P = &psEnc->sPrefilt;
@@ -154,15 +154,15 @@
* Prefilter for finding Quantizer input signal
*/
static inline void silk_prefilt_FLP(
- silk_prefilter_state_FLP *P,/* I/O state */
- silk_float st_res[], /* I */
- silk_float xw[], /* O */
- silk_float *HarmShapeFIR, /* I */
- silk_float Tilt, /* I */
- silk_float LF_MA_shp, /* I */
- silk_float LF_AR_shp, /* I */
- opus_int lag, /* I */
- opus_int length /* I */
+ silk_prefilter_state_FLP *P, /* I/O state */
+ silk_float st_res[], /* I */
+ silk_float xw[], /* O */
+ silk_float *HarmShapeFIR, /* I */
+ silk_float Tilt, /* I */
+ silk_float LF_MA_shp, /* I */
+ silk_float LF_AR_shp, /* I */
+ opus_int lag, /* I */
+ opus_int length /* I */
)
{
opus_int i;
diff --git a/silk/float/process_gains_FLP.c b/silk/float/process_gains_FLP.c
index f9b57f4..020f847 100644
--- a/silk/float/process_gains_FLP.c
+++ b/silk/float/process_gains_FLP.c
@@ -34,9 +34,9 @@
/* 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 */
+ 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 */
)
{
silk_shape_state_FLP *psShapeSt = &psEnc->sShape;
diff --git a/silk/float/regularize_correlations_FLP.c b/silk/float/regularize_correlations_FLP.c
index 0876e6a..7944780 100644
--- a/silk/float/regularize_correlations_FLP.c
+++ b/silk/float/regularize_correlations_FLP.c
@@ -31,11 +31,12 @@
#include "main_FLP.h"
+/* 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 */
+ 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 */
)
{
opus_int i;
diff --git a/silk/float/residual_energy_FLP.c b/silk/float/residual_energy_FLP.c
index da3b841..03604bd 100644
--- a/silk/float/residual_energy_FLP.c
+++ b/silk/float/residual_energy_FLP.c
@@ -35,12 +35,12 @@
#define REGULARIZATION_FACTOR 1e-8f
/* 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 */
+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 */
)
{
opus_int i, j, k;
@@ -89,13 +89,13 @@
/* Calculates residual energies of input subframes where all subframes have LPC_order */
/* of preceeding 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 */
+ 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 */
)
{
opus_int shift;
diff --git a/silk/float/scale_copy_vector_FLP.c b/silk/float/scale_copy_vector_FLP.c
index 689134f..efc922f 100644
--- a/silk/float/scale_copy_vector_FLP.c
+++ b/silk/float/scale_copy_vector_FLP.c
@@ -33,10 +33,10 @@
/* copy and multiply a vector by a constant */
void silk_scale_copy_vector_FLP(
- silk_float *data_out,
- const silk_float *data_in,
- silk_float gain,
- opus_int dataSize
+ silk_float *data_out,
+ const silk_float *data_in,
+ silk_float gain,
+ opus_int dataSize
)
{
opus_int i, dataSize4;
diff --git a/silk/float/scale_vector_FLP.c b/silk/float/scale_vector_FLP.c
index 656061e..09feeac 100644
--- a/silk/float/scale_vector_FLP.c
+++ b/silk/float/scale_vector_FLP.c
@@ -33,9 +33,9 @@
/* multiply a vector by a constant */
void silk_scale_vector_FLP(
- silk_float *data1,
- silk_float gain,
- opus_int dataSize
+ silk_float *data1,
+ silk_float gain,
+ opus_int dataSize
)
{
opus_int i, dataSize4;
diff --git a/silk/float/schur_FLP.c b/silk/float/schur_FLP.c
index 59921bb..205f8d4 100644
--- a/silk/float/schur_FLP.c
+++ b/silk/float/schur_FLP.c
@@ -31,10 +31,10 @@
#include "SigProc_FLP.h"
-silk_float silk_schur_FLP( /* O returns residual energy */
- silk_float refl_coef[], /* O reflection coefficients (length order) */
- const silk_float auto_corr[], /* I autotcorrelation sequence (length order+1) */
- opus_int order /* I order */
+silk_float silk_schur_FLP( /* O returns residual energy */
+ silk_float refl_coef[], /* O reflection coefficients (length order) */
+ const silk_float auto_corr[], /* I autocorrelation sequence (length order+1) */
+ opus_int order /* I order */
)
{
opus_int k, n;
@@ -56,7 +56,7 @@
refl_coef[ k ] = rc_tmp;
/* Update correlations */
- for( n = 0; n < order - k; n++ ){
+ for( n = 0; n < order - k; n++ ) {
Ctmp1 = C[ n + k + 1 ][ 0 ];
Ctmp2 = C[ n ][ 1 ];
C[ n + k + 1 ][ 0 ] = Ctmp1 + Ctmp2 * rc_tmp;
diff --git a/silk/float/silk_float.vcxproj b/silk/float/silk_float.vcxproj
index 4453947..9a42805 100644
--- a/silk/float/silk_float.vcxproj
+++ b/silk/float/silk_float.vcxproj
@@ -1,130 +1,131 @@
-<?xml version="1.0" encoding="utf-8"?>
-<Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
- <ItemGroup Label="ProjectConfigurations">
- <ProjectConfiguration Include="Debug|Win32">
- <Configuration>Debug</Configuration>
- <Platform>Win32</Platform>
- </ProjectConfiguration>
- <ProjectConfiguration Include="Release|Win32">
- <Configuration>Release</Configuration>
- <Platform>Win32</Platform>
- </ProjectConfiguration>
- </ItemGroup>
- <PropertyGroup Label="Globals">
- <ProjectGuid>{9C4961D2-5DDB-40C7-9BE8-CA918DC4E782}</ProjectGuid>
- <Keyword>Win32Proj</Keyword>
- <RootNamespace>src_FLP</RootNamespace>
- <ProjectName>silk_float</ProjectName>
- </PropertyGroup>
- <Import Project="$(VCTargetsPath)\Microsoft.Cpp.Default.props" />
- <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'" Label="Configuration">
- <ConfigurationType>StaticLibrary</ConfigurationType>
- <UseDebugLibraries>true</UseDebugLibraries>
- <CharacterSet>Unicode</CharacterSet>
- </PropertyGroup>
- <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'" Label="Configuration">
- <ConfigurationType>StaticLibrary</ConfigurationType>
- <UseDebugLibraries>false</UseDebugLibraries>
- <WholeProgramOptimization>true</WholeProgramOptimization>
- <CharacterSet>Unicode</CharacterSet>
- </PropertyGroup>
- <Import Project="$(VCTargetsPath)\Microsoft.Cpp.props" />
- <ImportGroup Label="ExtensionSettings">
- </ImportGroup>
- <ImportGroup Label="PropertySheets" Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
- <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')" Label="LocalAppDataPlatform" />
- </ImportGroup>
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+ <PreprocessorDefinitions>HAVE_CONFIG_H;WIN32;NDEBUG;_LIB;%(PreprocessorDefinitions)</PreprocessorDefinitions>
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+ <Link>
+ <SubSystem>Windows</SubSystem>
+ <GenerateDebugInformation>true</GenerateDebugInformation>
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+ </Link>
+ <Lib>
+ <OutputFile>$(OutDir)$(TargetName)$(TargetExt)</OutputFile>
+ </Lib>
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+ <None Include="ReadMe.txt" />
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+ <ClCompile Include="autocorrelation_FLP.c" />
+ <ClCompile Include="burg_modified_FLP.c" />
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+ <ClCompile Include="corrMatrix_FLP.c" />
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+ <ClCompile Include="energy_FLP.c" />
+ <ClCompile Include="find_LPC_FLP.c" />
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+ <ClCompile Include="find_pitch_lags_FLP.c" />
+ <ClCompile Include="find_pred_coefs_FLP.c" />
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+ <ClCompile Include="LPC_inv_pred_gain_FLP.c" />
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+ <ClCompile Include="regularize_correlations_FLP.c" />
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diff --git a/silk/float/silk_float.vcxproj.filters b/silk/float/silk_float.vcxproj.filters
index bf29bbe..a4f075b 100644
--- a/silk/float/silk_float.vcxproj.filters
+++ b/silk/float/silk_float.vcxproj.filters
@@ -1,129 +1,132 @@
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+ <UniqueIdentifier>{4FC737F1-C7A5-4376-A066-2A32D752A2FF}</UniqueIdentifier>
+ <Extensions>cpp;c;cc;cxx;def;odl;idl;hpj;bat;asm;asmx</Extensions>
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+ </Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
+ </ClCompile>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="k2a_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="levinsondurbin_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="LPC_analysis_filter_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="LPC_inv_pred_gain_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="LTP_analysis_filter_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="LTP_scale_ctrl_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="noise_shape_analysis_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="pitch_analysis_core_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="prefilter_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="process_gains_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="regularize_correlations_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="residual_energy_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="scale_copy_vector_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="scale_vector_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="schur_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="solve_LS_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="sort_FLP.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="warped_autocorrelation_FLP.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="wrappers_FLP.c">
+ <Filter>Source Files</Filter>
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diff --git a/silk/float/solve_LS_FLP.c b/silk/float/solve_LS_FLP.c
index c04cb59..dd3775a 100644
--- a/silk/float/solve_LS_FLP.c
+++ b/silk/float/solve_LS_FLP.c
@@ -38,10 +38,10 @@
* the symmetric matric A is given by A = L*D*L'.
**********************************************************************/
static inline void silk_LDL_FLP(
- silk_float *A, /* (I/O) Pointer to Symetric Square Matrix */
- opus_int M, /* (I) Size of Matrix */
- silk_float *L, /* (I/O) Pointer to Square Upper triangular Matrix */
- silk_float *Dinv /* (I/O) Pointer to vector holding the inverse diagonal elements of D */
+ silk_float *A, /* I/O Pointer to Symetric Square Matrix */
+ opus_int M, /* I Size of Matrix */
+ silk_float *L, /* I/O Pointer to Square Upper triangular Matrix */
+ silk_float *Dinv /* I/O Pointer to vector holding the inverse diagonal elements of D */
);
/**********************************************************************
@@ -49,10 +49,10 @@
* triangular matrix, with ones on the diagonal.
**********************************************************************/
static inline void silk_SolveWithLowerTriangularWdiagOnes_FLP(
- const silk_float *L, /* (I) Pointer to Lower Triangular Matrix */
- opus_int M, /* (I) Dim of Matrix equation */
- const silk_float *b, /* (I) b Vector */
- silk_float *x /* (O) x Vector */
+ const silk_float *L, /* I Pointer to Lower Triangular Matrix */
+ opus_int M, /* I Dim of Matrix equation */
+ const silk_float *b, /* I b Vector */
+ silk_float *x /* O x Vector */
);
/**********************************************************************
@@ -60,10 +60,10 @@
* triangular, with ones on the diagonal. (ie then A^T is upper triangular)
**********************************************************************/
static inline void silk_SolveWithUpperTriangularFromLowerWdiagOnes_FLP(
- const silk_float *L, /* (I) Pointer to Lower Triangular Matrix */
- opus_int M, /* (I) Dim of Matrix equation */
- const silk_float *b, /* (I) b Vector */
- silk_float *x /* (O) x Vector */
+ const silk_float *L, /* I Pointer to Lower Triangular Matrix */
+ opus_int M, /* I Dim of Matrix equation */
+ const silk_float *b, /* I b Vector */
+ silk_float *x /* O x Vector */
);
/**********************************************************************
@@ -71,10 +71,10 @@
* symmetric square matrix - using LDL factorisation
**********************************************************************/
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 */
+ 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 */
)
{
opus_int i;
@@ -110,10 +110,10 @@
}
static inline void silk_SolveWithUpperTriangularFromLowerWdiagOnes_FLP(
- const silk_float *L, /* (I) Pointer to Lower Triangular Matrix */
- opus_int M, /* (I) Dim of Matrix equation */
- const silk_float *b, /* (I) b Vector */
- silk_float *x /* (O) x Vector */
+ const silk_float *L, /* I Pointer to Lower Triangular Matrix */
+ opus_int M, /* I Dim of Matrix equation */
+ const silk_float *b, /* I b Vector */
+ silk_float *x /* O x Vector */
)
{
opus_int i, j;
@@ -132,10 +132,10 @@
}
static inline void silk_SolveWithLowerTriangularWdiagOnes_FLP(
- const silk_float *L, /* (I) Pointer to Lower Triangular Matrix */
- opus_int M, /* (I) Dim of Matrix equation */
- const silk_float *b, /* (I) b Vector */
- silk_float *x /* (O) x Vector */
+ const silk_float *L, /* I Pointer to Lower Triangular Matrix */
+ opus_int M, /* I Dim of Matrix equation */
+ const silk_float *b, /* I b Vector */
+ silk_float *x /* O x Vector */
)
{
opus_int i, j;
@@ -154,10 +154,10 @@
}
static inline void silk_LDL_FLP(
- silk_float *A, /* (I/O) Pointer to Symetric Square Matrix */
- opus_int M, /* (I) Size of Matrix */
- silk_float *L, /* (I/O) Pointer to Square Upper triangular Matrix */
- silk_float *Dinv /* (I/O) Pointer to vector holding the inverse diagonal elements of D */
+ silk_float *A, /* I/O Pointer to Symetric Square Matrix */
+ opus_int M, /* I Size of Matrix */
+ silk_float *L, /* I/O Pointer to Square Upper triangular Matrix */
+ silk_float *Dinv /* I/O Pointer to vector holding the inverse diagonal elements of D */
)
{
opus_int i, j, k, loop_count, err = 1;
diff --git a/silk/float/sort_FLP.c b/silk/float/sort_FLP.c
index 19860db..2b0a1d1 100644
--- a/silk/float/sort_FLP.c
+++ b/silk/float/sort_FLP.c
@@ -37,10 +37,10 @@
#include "SigProc_FLP.h"
void silk_insertion_sort_decreasing_FLP(
- silk_float *a, /* I/O: Unsorted / Sorted vector */
- opus_int *idx, /* O: Index vector for the sorted elements */
- const opus_int L, /* I: Vector length */
- const opus_int K /* I: Number of correctly sorted positions */
+ silk_float *a, /* I/O Unsorted / Sorted vector */
+ opus_int *idx, /* O Index vector for the sorted elements */
+ const opus_int L, /* I Vector length */
+ const opus_int K /* I Number of correctly sorted positions */
)
{
silk_float value;
diff --git a/silk/float/structs_FLP.h b/silk/float/structs_FLP.h
index dd776b5..f56a972 100644
--- a/silk/float/structs_FLP.h
+++ b/silk/float/structs_FLP.h
@@ -41,41 +41,41 @@
/* Noise shaping analysis state */
/********************************/
typedef struct {
- opus_int8 LastGainIndex;
- silk_float HarmBoost_smth;
- silk_float HarmShapeGain_smth;
- silk_float Tilt_smth;
+ opus_int8 LastGainIndex;
+ silk_float HarmBoost_smth;
+ silk_float HarmShapeGain_smth;
+ silk_float Tilt_smth;
} silk_shape_state_FLP;
/********************************/
/* Prefilter state */
/********************************/
typedef struct {
- silk_float sLTP_shp[ LTP_BUF_LENGTH ];
- silk_float sAR_shp[ MAX_SHAPE_LPC_ORDER + 1 ];
- opus_int sLTP_shp_buf_idx;
- silk_float sLF_AR_shp;
- silk_float sLF_MA_shp;
- silk_float sHarmHP;
- opus_int32 rand_seed;
- opus_int lagPrev;
+ silk_float sLTP_shp[ LTP_BUF_LENGTH ];
+ silk_float sAR_shp[ MAX_SHAPE_LPC_ORDER + 1 ];
+ opus_int sLTP_shp_buf_idx;
+ silk_float sLF_AR_shp;
+ silk_float sLF_MA_shp;
+ silk_float sHarmHP;
+ opus_int32 rand_seed;
+ opus_int lagPrev;
} silk_prefilter_state_FLP;
/********************************/
/* Encoder state FLP */
/********************************/
typedef struct {
- silk_encoder_state sCmn; /* Common struct, shared with fixed-point code */
- silk_shape_state_FLP sShape; /* Noise shaping state */
- silk_prefilter_state_FLP sPrefilt; /* Prefilter State */
+ silk_encoder_state sCmn; /* Common struct, shared with fixed-point code */
+ silk_shape_state_FLP sShape; /* Noise shaping state */
+ silk_prefilter_state_FLP sPrefilt; /* Prefilter State */
/* Buffer for find pitch and noise shape analysis */
- silk_float x_buf[ 2 * MAX_FRAME_LENGTH + LA_SHAPE_MAX ];/* Buffer for find pitch and noise shape analysis */
- silk_float LTPCorr; /* Normalized correlation from pitch lag estimator */
+ silk_float x_buf[ 2 * MAX_FRAME_LENGTH + LA_SHAPE_MAX ];/* Buffer for find pitch and noise shape analysis */
+ silk_float LTPCorr; /* Normalized correlation from pitch lag estimator */
/* Parameters for LTP scaling control */
- silk_float prevLTPredCodGain;
- silk_float HPLTPredCodGain;
+ silk_float prevLTPredCodGain;
+ silk_float HPLTPredCodGain;
} silk_encoder_state_FLP;
/************************/
@@ -83,34 +83,34 @@
/************************/
typedef struct {
/* Prediction and coding parameters */
- silk_float Gains[ MAX_NB_SUBFR ];
- silk_float PredCoef[ 2 ][ MAX_LPC_ORDER ]; /* holds interpolated and final coefficients */
- silk_float LTPCoef[LTP_ORDER * MAX_NB_SUBFR];
- silk_float LTP_scale;
- opus_int pitchL[ MAX_NB_SUBFR ];
+ silk_float Gains[ MAX_NB_SUBFR ];
+ silk_float PredCoef[ 2 ][ MAX_LPC_ORDER ]; /* holds interpolated and final coefficients */
+ silk_float LTPCoef[LTP_ORDER * MAX_NB_SUBFR];
+ silk_float LTP_scale;
+ opus_int pitchL[ MAX_NB_SUBFR ];
/* Noise shaping parameters */
- silk_float AR1[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ];
- silk_float AR2[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ];
- silk_float LF_MA_shp[ MAX_NB_SUBFR ];
- silk_float LF_AR_shp[ MAX_NB_SUBFR ];
- silk_float GainsPre[ MAX_NB_SUBFR ];
- silk_float HarmBoost[ MAX_NB_SUBFR ];
- silk_float Tilt[ MAX_NB_SUBFR ];
- silk_float HarmShapeGain[ MAX_NB_SUBFR ];
- silk_float Lambda;
- silk_float input_quality;
- silk_float coding_quality;
+ silk_float AR1[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ];
+ silk_float AR2[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ];
+ silk_float LF_MA_shp[ MAX_NB_SUBFR ];
+ silk_float LF_AR_shp[ MAX_NB_SUBFR ];
+ silk_float GainsPre[ MAX_NB_SUBFR ];
+ silk_float HarmBoost[ MAX_NB_SUBFR ];
+ silk_float Tilt[ MAX_NB_SUBFR ];
+ silk_float HarmShapeGain[ MAX_NB_SUBFR ];
+ silk_float Lambda;
+ silk_float input_quality;
+ silk_float coding_quality;
/* Measures */
- silk_float sparseness;
- silk_float predGain;
- silk_float LTPredCodGain;
- silk_float ResNrg[ MAX_NB_SUBFR ]; /* Residual energy per subframe */
+ silk_float sparseness;
+ silk_float predGain;
+ silk_float LTPredCodGain;
+ silk_float ResNrg[ MAX_NB_SUBFR ]; /* Residual energy per subframe */
/* Parameters for CBR mode */
- opus_int32 GainsUnq_Q16[ MAX_NB_SUBFR ];
- opus_int8 lastGainIndexPrev;
+ opus_int32 GainsUnq_Q16[ MAX_NB_SUBFR ];
+ opus_int8 lastGainIndexPrev;
} silk_encoder_control_FLP;
/************************/
@@ -119,13 +119,13 @@
typedef struct {
silk_encoder_state_FLP state_Fxx[ ENCODER_NUM_CHANNELS ];
stereo_enc_state sStereo;
- opus_int32 nBitsExceeded;
- opus_int nChannelsAPI;
- opus_int nChannelsInternal;
- opus_int nPrevChannelsInternal;
- opus_int timeSinceSwitchAllowed_ms;
- opus_int allowBandwidthSwitch;
- opus_int prev_decode_only_middle;
+ opus_int32 nBitsExceeded;
+ opus_int nChannelsAPI;
+ opus_int nChannelsInternal;
+ opus_int nPrevChannelsInternal;
+ opus_int timeSinceSwitchAllowed_ms;
+ opus_int allowBandwidthSwitch;
+ opus_int prev_decode_only_middle;
} silk_encoder;
#ifdef __cplusplus
diff --git a/silk/float/warped_autocorrelation_FLP.c b/silk/float/warped_autocorrelation_FLP.c
index 2f15fa5..4bbfabe 100644
--- a/silk/float/warped_autocorrelation_FLP.c
+++ b/silk/float/warped_autocorrelation_FLP.c
@@ -33,17 +33,17 @@
/* 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) */
+ 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) */
)
{
- opus_int n, i;
- double tmp1, tmp2;
- double state[ MAX_SHAPE_LPC_ORDER + 1 ] = { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 };
- double C[ MAX_SHAPE_LPC_ORDER + 1 ] = { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 };
+ opus_int n, i;
+ double tmp1, tmp2;
+ double state[ MAX_SHAPE_LPC_ORDER + 1 ] = { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 };
+ double C[ MAX_SHAPE_LPC_ORDER + 1 ] = { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 };
/* Order must be even */
silk_assert( ( order & 1 ) == 0 );
diff --git a/silk/float/wrappers_FLP.c b/silk/float/wrappers_FLP.c
index f4c046a..9fd9147 100644
--- a/silk/float/wrappers_FLP.c
+++ b/silk/float/wrappers_FLP.c
@@ -35,9 +35,9 @@
/* 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 */
+ 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 */
)
{
opus_int i;
@@ -52,9 +52,9 @@
/* Convert LSF 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 */
+ 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 */
)
{
opus_int i;
@@ -72,9 +72,9 @@
/******************************************/
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)) */
+ 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)) */
)
{
opus_int i, j;
@@ -93,12 +93,12 @@
/* 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 */
+ 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 */
)
{
opus_int i, j;
@@ -170,13 +170,13 @@
/* Floating-point Silk LTP quantiation wrapper */
/***********************************************/
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 */
+ 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 */
)
{
opus_int i;
diff --git a/silk/gain_quant.c b/silk/gain_quant.c
index 189f5fd..287e936 100644
--- a/silk/gain_quant.c
+++ b/silk/gain_quant.c
@@ -37,11 +37,11 @@
/* Gain scalar quantization with hysteresis, uniform on log scale */
void silk_gains_quant(
- opus_int8 ind[ MAX_NB_SUBFR ], /* O gain indices */
- opus_int32 gain_Q16[ MAX_NB_SUBFR ], /* I/O gains (quantized out) */
- opus_int8 *prev_ind, /* I/O last index in previous frame */
- const opus_int conditional, /* I first gain is delta coded if 1 */
- const opus_int nb_subfr /* I number of subframes */
+ opus_int8 ind[ MAX_NB_SUBFR ], /* O gain indices */
+ opus_int32 gain_Q16[ MAX_NB_SUBFR ], /* I/O gains (quantized out) */
+ opus_int8 *prev_ind, /* I/O last index in previous frame */
+ const opus_int conditional, /* I first gain is delta coded if 1 */
+ const opus_int nb_subfr /* I number of subframes */
)
{
opus_int k, double_step_size_threshold;
@@ -91,11 +91,11 @@
/* Gains scalar dequantization, uniform on log scale */
void silk_gains_dequant(
- opus_int32 gain_Q16[ MAX_NB_SUBFR ], /* O quantized gains */
- const opus_int8 ind[ MAX_NB_SUBFR ], /* I gain indices */
- opus_int8 *prev_ind, /* I/O last index in previous frame */
- const opus_int conditional, /* I first gain is delta coded if 1 */
- const opus_int nb_subfr /* I number of subframes */
+ opus_int32 gain_Q16[ MAX_NB_SUBFR ], /* O quantized gains */
+ const opus_int8 ind[ MAX_NB_SUBFR ], /* I gain indices */
+ opus_int8 *prev_ind, /* I/O last index in previous frame */
+ const opus_int conditional, /* I first gain is delta coded if 1 */
+ const opus_int nb_subfr /* I number of subframes */
)
{
opus_int k, ind_tmp, double_step_size_threshold;
@@ -123,9 +123,9 @@
}
/* Compute unique identifier of gain indices vector */
-opus_int32 silk_gains_ID( /* O returns unique identifier of gains */
- const opus_int8 ind[ MAX_NB_SUBFR ], /* I gain indices */
- const opus_int nb_subfr /* I number of subframes */
+opus_int32 silk_gains_ID( /* O returns unique identifier of gains */
+ const opus_int8 ind[ MAX_NB_SUBFR ], /* I gain indices */
+ const opus_int nb_subfr /* I number of subframes */
)
{
opus_int k;
diff --git a/silk/init_encoder.c b/silk/init_encoder.c
index 52befad..1441a96 100644
--- a/silk/init_encoder.c
+++ b/silk/init_encoder.c
@@ -39,8 +39,9 @@
/* Initialize Silk Encoder state */
/*********************************/
opus_int silk_init_encoder(
- silk_encoder_state_Fxx *psEnc /* I/O Pointer to Silk encoder state */
-) {
+ silk_encoder_state_Fxx *psEnc /* I/O Pointer to Silk FIX encoder state */
+)
+{
opus_int ret = 0;
/* Clear the entire encoder state */
diff --git a/silk/inner_prod_aligned.c b/silk/inner_prod_aligned.c
index 9c8fbff..22e4b2b 100644
--- a/silk/inner_prod_aligned.c
+++ b/silk/inner_prod_aligned.c
@@ -32,10 +32,10 @@
#include "SigProc_FIX.h"
opus_int32 silk_inner_prod_aligned_scale(
- const opus_int16 *const inVec1, /* I input vector 1 */
- const opus_int16 *const inVec2, /* I input vector 2 */
- const opus_int scale, /* I number of bits to shift */
- const opus_int len /* I vector lengths */
+ const opus_int16 *const inVec1, /* I input vector 1 */
+ const opus_int16 *const inVec2, /* I input vector 2 */
+ const opus_int scale, /* I number of bits to shift */
+ const opus_int len /* I vector lengths */
)
{
opus_int i;
diff --git a/silk/interpolate.c b/silk/interpolate.c
index 9309aad..0f40a93 100644
--- a/silk/interpolate.c
+++ b/silk/interpolate.c
@@ -33,11 +33,11 @@
/* Interpolate two vectors */
void silk_interpolate(
- opus_int16 xi[ MAX_LPC_ORDER ], /* O interpolated vector */
- const opus_int16 x0[ MAX_LPC_ORDER ], /* I first vector */
- const opus_int16 x1[ MAX_LPC_ORDER ], /* I second vector */
- const opus_int ifact_Q2, /* I interp. factor, weight on 2nd vector */
- const opus_int d /* I number of parameters */
+ opus_int16 xi[ MAX_LPC_ORDER ], /* O interpolated vector */
+ const opus_int16 x0[ MAX_LPC_ORDER ], /* I first vector */
+ const opus_int16 x1[ MAX_LPC_ORDER ], /* I second vector */
+ const opus_int ifact_Q2, /* I interp. factor, weight on 2nd vector */
+ const opus_int d /* I number of parameters */
)
{
opus_int i;
diff --git a/silk/lin2log.c b/silk/lin2log.c
index 9964158..0772e47 100644
--- a/silk/lin2log.c
+++ b/silk/lin2log.c
@@ -32,7 +32,9 @@
#include "SigProc_FIX.h"
/* Approximation of 128 * log2() (very close inverse of silk_log2lin()) */
/* Convert input to a log scale */
-opus_int32 silk_lin2log( const opus_int32 inLin ) /* I: Input in linear scale */
+opus_int32 silk_lin2log(
+ const opus_int32 inLin /* I input in linear scale */
+)
{
opus_int32 lz, frac_Q7;
diff --git a/silk/log2lin.c b/silk/log2lin.c
index b49dd0a..1a78de5 100644
--- a/silk/log2lin.c
+++ b/silk/log2lin.c
@@ -33,7 +33,9 @@
/* Approximation of 2^() (very close inverse of silk_lin2log()) */
/* Convert input to a linear scale */
-opus_int32 silk_log2lin( const opus_int32 inLog_Q7 ) /* I: Input on log scale */
+opus_int32 silk_log2lin(
+ const opus_int32 inLog_Q7 /* I input on log scale */
+)
{
opus_int32 out, frac_Q7;
diff --git a/silk/main.h b/silk/main.h
index 29c4521..adf11f6 100644
--- a/silk/main.h
+++ b/silk/main.h
@@ -38,114 +38,109 @@
#include "entenc.h"
#include "entdec.h"
-/* Uncomment the next line to store intermadiate data to files */
-/*#define SAVE_ALL_INTERNAL_DATA 1*/
-/* Uncomment the next line to force a fixed internal sampling rate (independent of what bitrate is used */
-/*#define FORCE_INTERNAL_FS_KHZ 16*/
-
/* Simple way to make [8000, 12000, 16000, 24000, 48000] to [0,1,2,3,4] */
#define rateID(R) ( ( ( ((R)>>12) - ((R)>16000) ) >> ((R)>24000) ) - 1 )
/* Convert Left/Right stereo signal to adaptive Mid/Side representation */
void silk_stereo_LR_to_MS(
- stereo_enc_state *state, /* I/O State */
- opus_int16 x1[], /* I/O Left input signal, becomes mid signal */
- opus_int16 x2[], /* I/O Right input signal, becomes side signal */
- opus_int8 ix[ 2 ][ 3 ], /* O Quantization indices */
- opus_int8 *mid_only_flag, /* O Flag: only mid signal coded */
- opus_int32 mid_side_rates_bps[], /* O Bitrates for mid and side signals */
- opus_int32 total_rate_bps, /* I Total bitrate */
- opus_int prev_speech_act_Q8, /* I Speech activity level in previous frame */
- opus_int toMono, /* I Last frame before a stereo->mono transition */
- opus_int fs_kHz, /* I Sample rate (kHz) */
- opus_int frame_length /* I Number of samples */
+ stereo_enc_state *state, /* I/O State */
+ opus_int16 x1[], /* I/O Left input signal, becomes mid signal */
+ opus_int16 x2[], /* I/O Right input signal, becomes side signal */
+ opus_int8 ix[ 2 ][ 3 ], /* O Quantization indices */
+ opus_int8 *mid_only_flag, /* O Flag: only mid signal coded */
+ opus_int32 mid_side_rates_bps[], /* O Bitrates for mid and side signals */
+ opus_int32 total_rate_bps, /* I Total bitrate */
+ opus_int prev_speech_act_Q8, /* I Speech activity level in previous frame */
+ opus_int toMono, /* I Last frame before a stereo->mono transition */
+ opus_int fs_kHz, /* I Sample rate (kHz) */
+ opus_int frame_length /* I Number of samples */
);
/* Convert adaptive Mid/Side representation to Left/Right stereo signal */
void silk_stereo_MS_to_LR(
- stereo_dec_state *state, /* I/O State */
- opus_int16 x1[], /* I/O Left input signal, becomes mid signal */
- opus_int16 x2[], /* I/O Right input signal, becomes side signal */
- const opus_int32 pred_Q13[], /* I Predictors */
- opus_int fs_kHz, /* I Samples rate (kHz) */
- opus_int frame_length /* I Number of samples */
+ stereo_dec_state *state, /* I/O State */
+ opus_int16 x1[], /* I/O Left input signal, becomes mid signal */
+ opus_int16 x2[], /* I/O Right input signal, becomes side signal */
+ const opus_int32 pred_Q13[], /* I Predictors */
+ opus_int fs_kHz, /* I Samples rate (kHz) */
+ opus_int frame_length /* I Number of samples */
);
/* Find least-squares prediction gain for one signal based on another and quantize it */
-opus_int32 silk_stereo_find_predictor( /* O Returns predictor in Q13 */
- opus_int32 *ratio_Q14, /* O Ratio of residual and mid energies */
- const opus_int16 x[], /* I Basis signal */
- const opus_int16 y[], /* I Target signal */
- opus_int32 mid_res_amp_Q0[], /* I/O Smoothed mid, residual norms */
- opus_int length, /* I Number of samples */
- opus_int smooth_coef_Q16 /* I Smoothing coefficient */
+opus_int32 silk_stereo_find_predictor( /* O Returns predictor in Q13 */
+ opus_int32 *ratio_Q14, /* O Ratio of residual and mid energies */
+ const opus_int16 x[], /* I Basis signal */
+ const opus_int16 y[], /* I Target signal */
+ opus_int32 mid_res_amp_Q0[], /* I/O Smoothed mid, residual norms */
+ opus_int length, /* I Number of samples */
+ opus_int smooth_coef_Q16 /* I Smoothing coefficient */
);
/* Quantize mid/side predictors */
void silk_stereo_quant_pred(
- opus_int32 pred_Q13[], /* I/O Predictors (out: quantized) */
- opus_int8 ix[ 2 ][ 3 ] /* O Quantization indices */
+ opus_int32 pred_Q13[], /* I/O Predictors (out: quantized) */
+ opus_int8 ix[ 2 ][ 3 ] /* O Quantization indices */
);
/* Entropy code the mid/side quantization indices */
void silk_stereo_encode_pred(
- ec_enc *psRangeEnc, /* I/O Compressor data structure */
- opus_int8 ix[ 2 ][ 3 ] /* I Quantization indices */
+ ec_enc *psRangeEnc, /* I/O Compressor data structure */
+ opus_int8 ix[ 2 ][ 3 ] /* I Quantization indices */
);
/* Entropy code the mid-only flag */
void silk_stereo_encode_mid_only(
- ec_enc *psRangeEnc, /* I/O Compressor data structure */
- opus_int8 mid_only_flag
+ ec_enc *psRangeEnc, /* I/O Compressor data structure */
+ opus_int8 mid_only_flag
);
/* Decode mid/side predictors */
void silk_stereo_decode_pred(
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int32 pred_Q13[] /* O Predictors */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int32 pred_Q13[] /* O Predictors */
);
/* Decode mid-only flag */
void silk_stereo_decode_mid_only(
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int *decode_only_mid /* O Flag that only mid channel has been coded */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int *decode_only_mid /* O Flag that only mid channel has been coded */
);
/* Encodes signs of excitation */
void silk_encode_signs(
ec_enc *psRangeEnc, /* I/O Compressor data structure */
- const opus_int8 pulses[], /* I pulse signal */
- opus_int length, /* I length of input */
- const opus_int signalType, /* I Signal type */
- const opus_int quantOffsetType, /* I Quantization offset type */
- const opus_int sum_pulses[ MAX_NB_SHELL_BLOCKS ] /* I Sum of absolute pulses per block */
+ const opus_int8 pulses[], /* I pulse signal */
+ opus_int length, /* I length of input */
+ const opus_int signalType, /* I Signal type */
+ const opus_int quantOffsetType, /* I Quantization offset type */
+ const opus_int sum_pulses[ MAX_NB_SHELL_BLOCKS ] /* I Sum of absolute pulses per block */
);
/* Decodes signs of excitation */
void silk_decode_signs(
ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int pulses[], /* I/O pulse signal */
- opus_int length, /* I length of input */
- const opus_int signalType, /* I Signal type */
- const opus_int quantOffsetType, /* I Quantization offset type */
- const opus_int sum_pulses[ MAX_NB_SHELL_BLOCKS ] /* I Sum of absolute pulses per block */
+ opus_int pulses[], /* I/O pulse signal */
+ opus_int length, /* I length of input */
+ const opus_int signalType, /* I Signal type */
+ const opus_int quantOffsetType, /* I Quantization offset type */
+ const opus_int sum_pulses[ MAX_NB_SHELL_BLOCKS ] /* I Sum of absolute pulses per block */
);
/* Check encoder control struct */
opus_int check_control_input(
- silk_EncControlStruct *encControl /* I: Control structure */
+ silk_EncControlStruct *encControl /* I Control structure */
);
/* Control internal sampling rate */
opus_int silk_control_audio_bandwidth(
- silk_encoder_state *psEncC, /* I/O Pointer to Silk encoder state */
- silk_EncControlStruct *encControl /* I: Control structure */
+ silk_encoder_state *psEncC, /* I/O Pointer to Silk encoder state */
+ silk_EncControlStruct *encControl /* I Control structure */
);
/* Control SNR of redidual quantizer */
opus_int silk_control_SNR(
- silk_encoder_state *psEncC, /* I/O Pointer to Silk encoder state */
- opus_int32 TargetRate_bps /* I Target max bitrate (bps) */
+ silk_encoder_state *psEncC, /* I/O Pointer to Silk encoder state */
+ opus_int32 TargetRate_bps /* I Target max bitrate (bps) */
);
/***************/
@@ -154,143 +149,143 @@
/* Encode quantization indices of excitation */
void silk_encode_pulses(
- ec_enc *psRangeEnc, /* I/O compressor data structure */
- const opus_int signalType, /* I Signal type */
- const opus_int quantOffsetType, /* I quantOffsetType */
- opus_int8 pulses[], /* I quantization indices */
- const opus_int frame_length /* I Frame length */
+ ec_enc *psRangeEnc, /* I/O compressor data structure */
+ const opus_int signalType, /* I Signal type */
+ const opus_int quantOffsetType, /* I quantOffsetType */
+ opus_int8 pulses[], /* I quantization indices */
+ const opus_int frame_length /* I Frame length */
);
/* Shell encoder, operates on one shell code frame of 16 pulses */
void silk_shell_encoder(
- ec_enc *psRangeEnc, /* I/O compressor data structure */
- const opus_int *pulses0 /* I data: nonnegative pulse amplitudes */
+ ec_enc *psRangeEnc, /* I/O compressor data structure */
+ const opus_int *pulses0 /* I data: nonnegative pulse amplitudes */
);
/* Shell decoder, operates on one shell code frame of 16 pulses */
void silk_shell_decoder(
- opus_int *pulses0, /* O data: nonnegative pulse amplitudes */
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- const opus_int pulses4 /* I number of pulses per pulse-subframe */
+ opus_int *pulses0, /* O data: nonnegative pulse amplitudes */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ const opus_int pulses4 /* I number of pulses per pulse-subframe */
);
/* Gain scalar quantization with hysteresis, uniform on log scale */
void silk_gains_quant(
- opus_int8 ind[ MAX_NB_SUBFR ], /* O gain indices */
- opus_int32 gain_Q16[ MAX_NB_SUBFR ], /* I/O gains (quantized out) */
- opus_int8 *prev_ind, /* I/O last index in previous frame */
- const opus_int conditional, /* I first gain is delta coded if 1 */
- const opus_int nb_subfr /* I number of subframes */
+ opus_int8 ind[ MAX_NB_SUBFR ], /* O gain indices */
+ opus_int32 gain_Q16[ MAX_NB_SUBFR ], /* I/O gains (quantized out) */
+ opus_int8 *prev_ind, /* I/O last index in previous frame */
+ const opus_int conditional, /* I first gain is delta coded if 1 */
+ const opus_int nb_subfr /* I number of subframes */
);
/* Gains scalar dequantization, uniform on log scale */
void silk_gains_dequant(
- opus_int32 gain_Q16[ MAX_NB_SUBFR ], /* O quantized gains */
- const opus_int8 ind[ MAX_NB_SUBFR ], /* I gain indices */
- opus_int8 *prev_ind, /* I/O last index in previous frame */
- const opus_int conditional, /* I first gain is delta coded if 1 */
- const opus_int nb_subfr /* I number of subframes */
+ opus_int32 gain_Q16[ MAX_NB_SUBFR ], /* O quantized gains */
+ const opus_int8 ind[ MAX_NB_SUBFR ], /* I gain indices */
+ opus_int8 *prev_ind, /* I/O last index in previous frame */
+ const opus_int conditional, /* I first gain is delta coded if 1 */
+ const opus_int nb_subfr /* I number of subframes */
);
/* Compute unique identifier of gain indices vector */
-opus_int32 silk_gains_ID( /* O returns unique identifier of gains */
- const opus_int8 ind[ MAX_NB_SUBFR ], /* I gain indices */
- const opus_int nb_subfr /* I number of subframes */
+opus_int32 silk_gains_ID( /* O returns unique identifier of gains */
+ const opus_int8 ind[ MAX_NB_SUBFR ], /* I gain indices */
+ const opus_int nb_subfr /* I number of subframes */
);
/* Interpolate two vectors */
void silk_interpolate(
- opus_int16 xi[ MAX_LPC_ORDER ], /* O interpolated vector */
- const opus_int16 x0[ MAX_LPC_ORDER ], /* I first vector */
- const opus_int16 x1[ MAX_LPC_ORDER ], /* I second vector */
- const opus_int ifact_Q2, /* I interp. factor, weight on 2nd vector */
- const opus_int d /* I number of parameters */
+ opus_int16 xi[ MAX_LPC_ORDER ], /* O interpolated vector */
+ const opus_int16 x0[ MAX_LPC_ORDER ], /* I first vector */
+ const opus_int16 x1[ MAX_LPC_ORDER ], /* I second vector */
+ const opus_int ifact_Q2, /* I interp. factor, weight on 2nd vector */
+ const opus_int d /* I number of parameters */
);
/* LTP tap quantizer */
void silk_quant_LTP_gains(
- opus_int16 B_Q14[ 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 opus_int32 W_Q18[ MAX_NB_SUBFR*LTP_ORDER*LTP_ORDER ], /* I Error Weights in Q18 */
- opus_int mu_Q9, /* I Mu value (R/D tradeoff) */
- opus_int lowComplexity, /* I Flag for low complexity */
- const opus_int nb_subfr /* I number of subframes */
+ opus_int16 B_Q14[ 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 opus_int32 W_Q18[ MAX_NB_SUBFR*LTP_ORDER*LTP_ORDER ], /* I Error Weights in Q18 */
+ opus_int mu_Q9, /* I Mu value (R/D tradeoff) */
+ opus_int lowComplexity, /* I Flag for low complexity */
+ const opus_int nb_subfr /* I number of subframes */
);
/* Entropy constrained matrix-weighted VQ, for a single input data vector */
void silk_VQ_WMat_EC(
- opus_int8 *ind, /* O index of best codebook vector */
- opus_int32 *rate_dist_Q14, /* O best weighted quantization error + mu * rate*/
- const opus_int16 *in_Q14, /* I input vector to be quantized */
- const opus_int32 *W_Q18, /* I weighting matrix */
- const opus_int8 *cb_Q7, /* I codebook */
- const opus_uint8 *cl_Q5, /* I code length for each codebook vector */
- const opus_int mu_Q9, /* I tradeoff between weighted error and rate */
- opus_int L /* I number of vectors in codebook */
+ opus_int8 *ind, /* O index of best codebook vector */
+ opus_int32 *rate_dist_Q14, /* O best weighted quant error + mu * rate */
+ const opus_int16 *in_Q14, /* I input vector to be quantized */
+ const opus_int32 *W_Q18, /* I weighting matrix */
+ const opus_int8 *cb_Q7, /* I codebook */
+ const opus_uint8 *cl_Q5, /* I code length for each codebook vector */
+ const opus_int mu_Q9, /* I tradeoff betw. weighted error and rate */
+ opus_int L /* I number of vectors in codebook */
);
-/***********************************/
-/* Noise shaping quantization (NSQ)*/
-/***********************************/
+/************************************/
+/* Noise shaping quantization (NSQ) */
+/************************************/
void silk_NSQ(
- const silk_encoder_state *psEncC, /* I/O Encoder State */
- silk_nsq_state *NSQ, /* I/O NSQ state */
- SideInfoIndices *psIndices, /* I/O Quantization Indices */
- const opus_int16 x[], /* I prefiltered input signal */
- opus_int8 pulses[], /* O quantized qulse signal */
- const opus_int16 PredCoef_Q12[ 2 * MAX_LPC_ORDER ], /* I Short term prediction coefficients */
- const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ], /* I Long term prediction coefficients */
- const opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ], /* I */
- const opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ], /* I */
- const opus_int Tilt_Q14[ MAX_NB_SUBFR ], /* I Spectral tilt */
- const opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ], /* I */
- const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I */
- const opus_int Lambda_Q10, /* I */
- const opus_int LTP_scale_Q14 /* I LTP state scaling */
+ const silk_encoder_state *psEncC, /* I/O Encoder State */
+ silk_nsq_state *NSQ, /* I/O NSQ state */
+ SideInfoIndices *psIndices, /* I/O Quantization Indices */
+ const opus_int16 x[], /* I Prefiltered input signal */
+ opus_int8 pulses[], /* O Quantized pulse signal */
+ const opus_int16 PredCoef_Q12[ 2 * MAX_LPC_ORDER ], /* I Short term prediction coefs */
+ const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ], /* I Long term prediction coefs */
+ const opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ], /* I Noise shaping coefs */
+ const opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ], /* I Long term shaping coefs */
+ const opus_int Tilt_Q14[ MAX_NB_SUBFR ], /* I Spectral tilt */
+ const opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ], /* I Low frequency shaping coefs */
+ const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I Quantization step sizes */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lags */
+ const opus_int Lambda_Q10, /* I Rate/distortion tradeoff */
+ const opus_int LTP_scale_Q14 /* I LTP state scaling */
);
/* Noise shaping using delayed decision */
void silk_NSQ_del_dec(
- const silk_encoder_state *psEncC, /* I/O Encoder State */
- silk_nsq_state *NSQ, /* I/O NSQ state */
- SideInfoIndices *psIndices, /* I/O Quantization Indices */
- const opus_int16 x[], /* I Prefiltered input signal */
- opus_int8 pulses[], /* O Quantized pulse signal */
- const opus_int16 PredCoef_Q12[ 2 * MAX_LPC_ORDER ], /* I Prediction coefs */
- const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ], /* I LT prediction coefs */
- const opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ], /* I */
- const opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ], /* I */
- const opus_int Tilt_Q14[ MAX_NB_SUBFR ], /* I Spectral tilt */
- const opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ], /* I */
- const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I */
- const opus_int pitchL[ MAX_NB_SUBFR ], /* I */
- const opus_int Lambda_Q10, /* I */
- const opus_int LTP_scale_Q14 /* I LTP state scaling */
+ const silk_encoder_state *psEncC, /* I/O Encoder State */
+ silk_nsq_state *NSQ, /* I/O NSQ state */
+ SideInfoIndices *psIndices, /* I/O Quantization Indices */
+ const opus_int16 x[], /* I Prefiltered input signal */
+ opus_int8 pulses[], /* O Quantized pulse signal */
+ const opus_int16 PredCoef_Q12[ 2 * MAX_LPC_ORDER ], /* I Short term prediction coefs */
+ const opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ], /* I Long term prediction coefs */
+ const opus_int16 AR2_Q13[ MAX_NB_SUBFR * MAX_SHAPE_LPC_ORDER ], /* I Noise shaping coefs */
+ const opus_int HarmShapeGain_Q14[ MAX_NB_SUBFR ], /* I Long term shaping coefs */
+ const opus_int Tilt_Q14[ MAX_NB_SUBFR ], /* I Spectral tilt */
+ const opus_int32 LF_shp_Q14[ MAX_NB_SUBFR ], /* I Low frequency shaping coefs */
+ const opus_int32 Gains_Q16[ MAX_NB_SUBFR ], /* I Quantization step sizes */
+ const opus_int pitchL[ MAX_NB_SUBFR ], /* I Pitch lags */
+ const opus_int Lambda_Q10, /* I Rate/distortion tradeoff */
+ const opus_int LTP_scale_Q14 /* I LTP state scaling */
);
/************/
/* Silk VAD */
/************/
/* Initialize the Silk VAD */
-opus_int silk_VAD_Init( /* O Return value, 0 if success */
- silk_VAD_state *psSilk_VAD /* I/O Pointer to Silk VAD state */
+opus_int silk_VAD_Init( /* O Return value, 0 if success */
+ silk_VAD_state *psSilk_VAD /* I/O Pointer to Silk VAD state */
);
/* Get speech activity level in Q8 */
-opus_int silk_VAD_GetSA_Q8( /* O Return value, 0 if success */
- silk_encoder_state *psEncC, /* I/O Encoder state */
- const opus_int16 pIn[] /* I PCM input */
+opus_int silk_VAD_GetSA_Q8( /* O Return value, 0 if success */
+ silk_encoder_state *psEncC, /* I/O Encoder state */
+ const opus_int16 pIn[] /* I PCM input */
);
/* Low-pass filter with variable cutoff frequency based on */
/* piece-wise linear interpolation between elliptic filters */
/* Start by setting transition_frame_no = 1; */
void silk_LP_variable_cutoff(
- silk_LP_state *psLP, /* I/O LP filter state */
- opus_int16 *signal, /* I/O Low-pass filtered output signal */
- const opus_int frame_length /* I Frame length */
+ silk_LP_state *psLP, /* I/O LP filter state */
+ opus_int16 *frame, /* I/O Low-pass filtered output signal */
+ const opus_int frame_length /* I Frame length */
);
/******************/
@@ -298,133 +293,119 @@
/******************/
/* Limit, stabilize, convert and quantize NLSFs */
void silk_process_NLSFs(
- silk_encoder_state *psEncC, /* I/O Encoder state */
- opus_int16 PredCoef_Q12[ 2 ][ MAX_LPC_ORDER ], /* O Prediction coefficients */
- opus_int16 pNLSF_Q15[ MAX_LPC_ORDER ], /* I/O Normalized LSFs (quant out) (0 - (2^15-1)) */
- const opus_int16 prev_NLSFq_Q15[ MAX_LPC_ORDER ] /* I Previous Normalized LSFs (0 - (2^15-1)) */
+ silk_encoder_state *psEncC, /* I/O Encoder state */
+ opus_int16 PredCoef_Q12[ 2 ][ MAX_LPC_ORDER ], /* O Prediction coefficients */
+ opus_int16 pNLSF_Q15[ MAX_LPC_ORDER ], /* I/O Normalized LSFs (quant out) (0 - (2^15-1)) */
+ const opus_int16 prev_NLSFq_Q15[ MAX_LPC_ORDER ] /* I Previous Normalized LSFs (0 - (2^15-1)) */
);
-opus_int32 silk_NLSF_encode( /* O Returns RD value in Q25 */
- opus_int8 *NLSFIndices, /* I Codebook path vector [ LPC_ORDER + 1 ] */
- opus_int16 *pNLSF_Q15, /* I/O Quantized NLSF vector [ LPC_ORDER ] */
- const silk_NLSF_CB_struct *psNLSF_CB, /* I Codebook object */
- const opus_int16 *pW_QW, /* I NLSF weight vector [ LPC_ORDER ] */
- const opus_int NLSF_mu_Q20, /* I Rate weight for the RD optimization */
- const opus_int nSurvivors, /* I Max survivors after first stage */
- const opus_int signalType /* I Signal type: 0/1/2 */
+opus_int32 silk_NLSF_encode( /* O Returns RD value in Q25 */
+ opus_int8 *NLSFIndices, /* I Codebook path vector [ LPC_ORDER + 1 ] */
+ opus_int16 *pNLSF_Q15, /* I/O Quantized NLSF vector [ LPC_ORDER ] */
+ const silk_NLSF_CB_struct *psNLSF_CB, /* I Codebook object */
+ const opus_int16 *pW_QW, /* I NLSF weight vector [ LPC_ORDER ] */
+ const opus_int NLSF_mu_Q20, /* I Rate weight for the RD optimization */
+ const opus_int nSurvivors, /* I Max survivors after first stage */
+ const opus_int signalType /* I Signal type: 0/1/2 */
);
/* Compute quantization errors for an LPC_order element input vector for a VQ codebook */
void silk_NLSF_VQ(
- opus_int32 err_Q26[], /* O Quantization errors [K] */
- const opus_int16 in_Q15[], /* I Input vectors to be quantized [LPC_order] */
- const opus_uint8 pCB_Q8[], /* I Codebook vectors [K*LPC_order] */
- const opus_int K, /* I Number of codebook vectors */
- const opus_int LPC_order /* I Number of LPCs */
+ opus_int32 err_Q26[], /* O Quantization errors [K] */
+ const opus_int16 in_Q15[], /* I Input vectors to be quantized [LPC_order] */
+ const opus_uint8 pCB_Q8[], /* I Codebook vectors [K*LPC_order] */
+ const opus_int K, /* I Number of codebook vectors */
+ const opus_int LPC_order /* I Number of LPCs */
);
/* Delayed-decision quantizer for NLSF residuals */
-opus_int32 silk_NLSF_del_dec_quant( /* O Returns RD value in Q25 */
- opus_int8 indices[], /* O Quantization indices [ order ] */
- const opus_int16 x_Q10[], /* I Input [ order ] */
- const opus_int16 w_Q5[], /* I Weights [ order ] */
- const opus_uint8 pred_coef_Q8[], /* I Backward predictor coefs [ order ] */
- const opus_int16 ec_ix[], /* I Indices to entropy coding tables [ order ] */
- const opus_uint8 ec_rates_Q5[], /* I Rates [] */
- const opus_int quant_step_size_Q16, /* I Quantization step size */
- const opus_int16 inv_quant_step_size_Q6, /* I Inverse quantization step size */
- const opus_int32 mu_Q20, /* I R/D tradeoff */
- const opus_int16 order /* I Number of input values */
+opus_int32 silk_NLSF_del_dec_quant( /* O Returns RD value in Q25 */
+ opus_int8 indices[], /* O Quantization indices [ order ] */
+ const opus_int16 x_Q10[], /* I Input [ order ] */
+ const opus_int16 w_Q5[], /* I Weights [ order ] */
+ const opus_uint8 pred_coef_Q8[], /* I Backward predictor coefs [ order ] */
+ const opus_int16 ec_ix[], /* I Indices to entropy coding tables [ order ] */
+ const opus_uint8 ec_rates_Q5[], /* I Rates [] */
+ const opus_int quant_step_size_Q16, /* I Quantization step size */
+ const opus_int16 inv_quant_step_size_Q6, /* I Inverse quantization step size */
+ const opus_int32 mu_Q20, /* I R/D tradeoff */
+ const opus_int16 order /* I Number of input values */
);
/* Unpack predictor values and indices for entropy coding tables */
void silk_NLSF_unpack(
- opus_int16 ec_ix[], /* O Indices to entropy tales [ LPC_ORDER ] */
- opus_uint8 pred_Q8[], /* O LSF predictor [ LPC_ORDER ] */
- const silk_NLSF_CB_struct *psNLSF_CB, /* I Codebook object */
- const opus_int CB1_index /* I Index of vector in first LSF codebook */
+ opus_int16 ec_ix[], /* O Indices to entropy tales [ LPC_ORDER ] */
+ opus_uint8 pred_Q8[], /* O LSF predictor [ LPC_ORDER ] */
+ const silk_NLSF_CB_struct *psNLSF_CB, /* I Codebook object */
+ const opus_int CB1_index /* I Index of vector in first LSF codebook */
);
/***********************/
/* NLSF vector decoder */
/***********************/
void silk_NLSF_decode(
- opus_int16 *pNLSF_Q15, /* O Quantized NLSF vector [ LPC_ORDER ] */
- opus_int8 *NLSFIndices, /* I Codebook path vector [ LPC_ORDER + 1 ] */
- const silk_NLSF_CB_struct *psNLSF_CB /* I Codebook object */
+ opus_int16 *pNLSF_Q15, /* O Quantized NLSF vector [ LPC_ORDER ] */
+ opus_int8 *NLSFIndices, /* I Codebook path vector [ LPC_ORDER + 1 ] */
+ const silk_NLSF_CB_struct *psNLSF_CB /* I Codebook object */
);
/****************************************************/
/* Decoder Functions */
/****************************************************/
-opus_int silk_create_decoder(
- silk_decoder_state **ppsDec /* I/O Decoder state pointer pointer */
-);
-
-opus_int silk_free_decoder(
- silk_decoder_state *psDec /* I/O Decoder state pointer */
-);
-
opus_int silk_init_decoder(
- silk_decoder_state *psDec /* I/O Decoder state pointer */
+ silk_decoder_state *psDec /* I/O Decoder state pointer */
);
/* Set decoder sampling rate */
opus_int silk_decoder_set_fs(
- silk_decoder_state *psDec, /* I/O Decoder state pointer */
- opus_int fs_kHz, /* I Sampling frequency (kHz) */
- opus_int fs_API_Hz /* I API Sampling frequency (Hz) */
+ silk_decoder_state *psDec, /* I/O Decoder state pointer */
+ opus_int fs_kHz, /* I Sampling frequency (kHz) */
+ opus_int fs_API_Hz /* I API Sampling frequency (Hz) */
);
/****************/
/* Decode frame */
/****************/
opus_int silk_decode_frame(
- silk_decoder_state *psDec, /* I/O Pointer to Silk decoder state */
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int16 pOut[], /* O Pointer to output speech frame */
- opus_int32 *pN, /* O Pointer to size of output frame */
- opus_int lostFlag, /* I 0: no loss, 1 loss, 2 decode fec */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_decoder_state *psDec, /* I/O Pointer to Silk decoder state */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int16 pOut[], /* O Pointer to output speech frame */
+ opus_int32 *pN, /* O Pointer to size of output frame */
+ opus_int lostFlag, /* I 0: no loss, 1 loss, 2 decode fec */
+ opus_int condCoding /* I The type of conditional coding to use */
);
-/* Decode LBRR side info and excitation */
-void silk_LBRR_extract(
- silk_decoder_state *psDec, /* I/O State */
- ec_dec *psRangeDec /* I/O Compressor data structure */
-);
-
-/* Decode indices from payload v4 Bitstream */
+/* Decode indices from bitstream */
void silk_decode_indices(
- silk_decoder_state *psDec, /* I/O State */
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int FrameIndex, /* I Frame number */
- opus_int decode_LBRR, /* I Flag indicating LBRR data is being decoded */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_decoder_state *psDec, /* I/O State */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int FrameIndex, /* I Frame number */
+ opus_int decode_LBRR, /* I Flag indicating LBRR data is being decoded */
+ opus_int condCoding /* I The type of conditional coding to use */
);
/* Decode parameters from payload */
void silk_decode_parameters(
- silk_decoder_state *psDec, /* I/O State */
- silk_decoder_control *psDecCtrl, /* I/O Decoder control */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_decoder_state *psDec, /* I/O State */
+ silk_decoder_control *psDecCtrl, /* I/O Decoder control */
+ opus_int condCoding /* I The type of conditional coding to use */
);
/* Core decoder. Performs inverse NSQ operation LTP + LPC */
void silk_decode_core(
- silk_decoder_state *psDec, /* I/O Decoder state */
- silk_decoder_control *psDecCtrl, /* I Decoder control */
- opus_int16 xq[], /* O Decoded speech */
- const opus_int pulses[ MAX_FRAME_LENGTH ] /* I Pulse signal */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl, /* I Decoder control */
+ opus_int16 xq[], /* O Decoded speech */
+ const opus_int pulses[ MAX_FRAME_LENGTH ] /* I Pulse signal */
);
/* Decode quantization indices of excitation (Shell coding) */
void silk_decode_pulses(
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int pulses[], /* O Excitation signal */
- const opus_int signalType, /* I Sigtype */
- const opus_int quantOffsetType, /* I quantOffsetType */
- const opus_int frame_length /* I Frame length */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int pulses[], /* O Excitation signal */
+ const opus_int signalType, /* I Sigtype */
+ const opus_int quantOffsetType, /* I quantOffsetType */
+ const opus_int frame_length /* I Frame length */
);
/******************/
@@ -433,24 +414,24 @@
/* Reset CNG */
void silk_CNG_Reset(
- silk_decoder_state *psDec /* I/O Decoder state */
+ silk_decoder_state *psDec /* I/O Decoder state */
);
/* Updates CNG estimate, and applies the CNG when packet was lost */
void silk_CNG(
- silk_decoder_state *psDec, /* I/O Decoder state */
- silk_decoder_control *psDecCtrl, /* I/O Decoder control */
- opus_int16 signal[], /* I/O Signal */
- opus_int length /* I Length of residual */
+ silk_decoder_state *psDec, /* I/O Decoder state */
+ silk_decoder_control *psDecCtrl, /* I/O Decoder control */
+ opus_int16 frame[], /* I/O Signal */
+ opus_int length /* I Length of residual */
);
/* Encoding of various parameters */
void silk_encode_indices(
- silk_encoder_state *psEncC, /* I/O Encoder state */
- ec_enc *psRangeEnc, /* I/O Compressor data structure */
- opus_int FrameIndex, /* I Frame number */
- opus_int encode_LBRR, /* I Flag indicating LBRR data is being encoded */
- opus_int condCoding /* I The type of conditional coding to use */
+ silk_encoder_state *psEncC, /* I/O Encoder state */
+ ec_enc *psRangeEnc, /* I/O Compressor data structure */
+ opus_int FrameIndex, /* I Frame number */
+ opus_int encode_LBRR, /* I Flag indicating LBRR data is being encoded */
+ opus_int condCoding /* I The type of conditional coding to use */
);
#endif
diff --git a/silk/pitch_est_defines.h b/silk/pitch_est_defines.h
index c6f084f..32d2042 100644
--- a/silk/pitch_est_defines.h
+++ b/silk/pitch_est_defines.h
@@ -30,55 +30,60 @@
#include "SigProc_FIX.h"
-/************************************************************/
-/* Definitions For Fix pitch estimator */
-/************************************************************/
+/********************************************************/
+/* Definitions for pitch estimator */
+/********************************************************/
-#define PE_MAX_FS_KHZ 16 /* Maximum sampling frequency used */
+#define PE_MAX_FS_KHZ 16 /* Maximum sampling frequency used */
-#define PE_MAX_NB_SUBFR 4
-#define PE_SUBFR_LENGTH_MS 5 /* 5 ms */
+#define PE_MAX_NB_SUBFR 4
+#define PE_SUBFR_LENGTH_MS 5 /* 5 ms */
-#define PE_LTP_MEM_LENGTH_MS (4 * PE_SUBFR_LENGTH_MS)
+#define PE_LTP_MEM_LENGTH_MS ( 4 * PE_SUBFR_LENGTH_MS )
-#define PE_MAX_FRAME_LENGTH_MS (PE_LTP_MEM_LENGTH_MS + PE_MAX_NB_SUBFR * PE_SUBFR_LENGTH_MS)
-#define PE_MAX_FRAME_LENGTH (PE_MAX_FRAME_LENGTH_MS * PE_MAX_FS_KHZ)
-#define PE_MAX_FRAME_LENGTH_ST_1 (PE_MAX_FRAME_LENGTH >> 2)
-#define PE_MAX_FRAME_LENGTH_ST_2 (PE_MAX_FRAME_LENGTH >> 1)
-#define PE_MAX_SF_FRAME_LENGTH (PE_SUB_FRAME * PE_MAX_FS_KHZ)
+#define PE_MAX_FRAME_LENGTH_MS ( PE_LTP_MEM_LENGTH_MS + PE_MAX_NB_SUBFR * PE_SUBFR_LENGTH_MS )
+#define PE_MAX_FRAME_LENGTH ( PE_MAX_FRAME_LENGTH_MS * PE_MAX_FS_KHZ )
+#define PE_MAX_FRAME_LENGTH_ST_1 ( PE_MAX_FRAME_LENGTH >> 2 )
+#define PE_MAX_FRAME_LENGTH_ST_2 ( PE_MAX_FRAME_LENGTH >> 1 )
+#define PE_MAX_SF_FRAME_LENGTH ( PE_SUB_FRAME * PE_MAX_FS_KHZ )
-#define PE_MAX_LAG_MS 18 /* 18 ms -> 56 Hz */
-#define PE_MIN_LAG_MS 2 /* 2 ms -> 500 Hz */
-#define PE_MAX_LAG (PE_MAX_LAG_MS * PE_MAX_FS_KHZ)
-#define PE_MIN_LAG (PE_MIN_LAG_MS * PE_MAX_FS_KHZ)
+#define PE_MAX_LAG_MS 18 /* 18 ms -> 56 Hz */
+#define PE_MIN_LAG_MS 2 /* 2 ms -> 500 Hz */
+#define PE_MAX_LAG ( PE_MAX_LAG_MS * PE_MAX_FS_KHZ )
+#define PE_MIN_LAG ( PE_MIN_LAG_MS * PE_MAX_FS_KHZ )
-#define PE_D_SRCH_LENGTH 24
+#define PE_D_SRCH_LENGTH 24
-#define PE_NB_STAGE3_LAGS 5
+#define PE_NB_STAGE3_LAGS 5
-#define PE_NB_CBKS_STAGE2 3
-#define PE_NB_CBKS_STAGE2_EXT 11
+#define PE_NB_CBKS_STAGE2 3
+#define PE_NB_CBKS_STAGE2_EXT 11
-#define PE_CB_mn2 1
-#define PE_CB_mx2 2
+#define PE_CB_mn2 1
+#define PE_CB_mx2 2
-#define PE_NB_CBKS_STAGE3_MAX 34
-#define PE_NB_CBKS_STAGE3_MID 24
-#define PE_NB_CBKS_STAGE3_MIN 16
+#define PE_NB_CBKS_STAGE3_MAX 34
+#define PE_NB_CBKS_STAGE3_MID 24
+#define PE_NB_CBKS_STAGE3_MIN 16
-#define PE_NB_CBKS_STAGE3_10MS 12
-#define PE_NB_CBKS_STAGE2_10MS 3
+#define PE_NB_CBKS_STAGE3_10MS 12
+#define PE_NB_CBKS_STAGE2_10MS 3
-#define PE_SHORTLAG_BIAS 0.2f /* for logarithmic weighting */
-#define PE_PREVLAG_BIAS 0.2f /* for logarithmic weighting */
-#define PE_FLATCONTOUR_BIAS 0.05f
+#define PE_SHORTLAG_BIAS 0.2f /* for logarithmic weighting */
+#define PE_PREVLAG_BIAS 0.2f /* for logarithmic weighting */
+#define PE_FLATCONTOUR_BIAS 0.05f
+#define SILK_PE_MIN_COMPLEX 0
+#define SILK_PE_MID_COMPLEX 1
+#define SILK_PE_MAX_COMPLEX 2
+
+/* Tables for 20 ms frames */
extern const opus_int8 silk_CB_lags_stage2[ PE_MAX_NB_SUBFR ][ PE_NB_CBKS_STAGE2_EXT ];
extern const opus_int8 silk_CB_lags_stage3[ PE_MAX_NB_SUBFR ][ PE_NB_CBKS_STAGE3_MAX ];
extern const opus_int8 silk_Lag_range_stage3[ SILK_PE_MAX_COMPLEX + 1 ] [ PE_MAX_NB_SUBFR ][ 2 ];
extern const opus_int8 silk_nb_cbk_searchs_stage3[ SILK_PE_MAX_COMPLEX + 1 ];
-/* Tables added for 10 ms frames */
+/* Tables for 10 ms frames */
extern const opus_int8 silk_CB_lags_stage2_10_ms[ PE_MAX_NB_SUBFR >> 1][ 3 ];
extern const opus_int8 silk_CB_lags_stage3_10_ms[ PE_MAX_NB_SUBFR >> 1 ][ 12 ];
extern const opus_int8 silk_Lag_range_stage3_10_ms[ PE_MAX_NB_SUBFR >> 1 ][ 2 ];
diff --git a/silk/process_NLSFs.c b/silk/process_NLSFs.c
index 6e1cc06..c49f884 100644
--- a/silk/process_NLSFs.c
+++ b/silk/process_NLSFs.c
@@ -33,10 +33,10 @@
/* Limit, stabilize, convert and quantize NLSFs */
void silk_process_NLSFs(
- silk_encoder_state *psEncC, /* I/O Encoder state */
- opus_int16 PredCoef_Q12[ 2 ][ MAX_LPC_ORDER ], /* O Prediction coefficients */
- opus_int16 pNLSF_Q15[ MAX_LPC_ORDER ], /* I/O Normalized LSFs (quant out) (0 - (2^15-1)) */
- const opus_int16 prev_NLSFq_Q15[ MAX_LPC_ORDER ] /* I Previous Normalized LSFs (0 - (2^15-1)) */
+ silk_encoder_state *psEncC, /* I/O Encoder state */
+ opus_int16 PredCoef_Q12[ 2 ][ MAX_LPC_ORDER ], /* O Prediction coefficients */
+ opus_int16 pNLSF_Q15[ MAX_LPC_ORDER ], /* I/O Normalized LSFs (quant out) (0 - (2^15-1)) */
+ const opus_int16 prev_NLSFq_Q15[ MAX_LPC_ORDER ] /* I Previous Normalized LSFs (0 - (2^15-1)) */
)
{
opus_int i, doInterpolate;
@@ -80,15 +80,12 @@
i_sqr_Q15 = silk_LSHIFT( silk_SMULBB( psEncC->indices.NLSFInterpCoef_Q2, psEncC->indices.NLSFInterpCoef_Q2 ), 11 );
for( i = 0; i < psEncC->predictLPCOrder; i++ ) {
pNLSFW_QW[ i ] = silk_SMLAWB( silk_RSHIFT( pNLSFW_QW[ i ], 1 ), pNLSFW0_temp_QW[ i ], i_sqr_Q15 );
- silk_assert( pNLSFW_QW[ i ] <= silk_int16_MAX );
silk_assert( pNLSFW_QW[ i ] >= 1 );
}
}
- TIC(NLSF_encode)
silk_NLSF_encode( psEncC->indices.NLSFIndices, pNLSF_Q15, psEncC->psNLSF_CB, pNLSFW_QW,
NLSF_mu_Q20, psEncC->NLSF_MSVQ_Survivors, psEncC->indices.signalType );
- TOC(NLSF_encode)
/* Convert quantized NLSFs back to LPC coefficients */
silk_NLSF2A( PredCoef_Q12[ 1 ], pNLSF_Q15, psEncC->predictLPCOrder );
diff --git a/silk/quant_LTP_gains.c b/silk/quant_LTP_gains.c
index 7a5c46c..4724659 100644
--- a/silk/quant_LTP_gains.c
+++ b/silk/quant_LTP_gains.c
@@ -32,13 +32,13 @@
#include "main.h"
void silk_quant_LTP_gains(
- opus_int16 B_Q14[ 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 opus_int32 W_Q18[ MAX_NB_SUBFR*LTP_ORDER*LTP_ORDER ], /* I Error Weights in Q18 */
- opus_int mu_Q9, /* I Mu value (R/D tradeoff) */
- opus_int lowComplexity, /* I Flag for low complexity */
- const opus_int nb_subfr /* I number of subframes */
+ opus_int16 B_Q14[ 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 opus_int32 W_Q18[ MAX_NB_SUBFR*LTP_ORDER*LTP_ORDER ], /* I Error Weights in Q18 */
+ opus_int mu_Q9, /* I Mu value (R/D tradeoff) */
+ opus_int lowComplexity, /* I Flag for low complexity */
+ const opus_int nb_subfr /* I number of subframes */
)
{
opus_int j, k, cbk_size;
@@ -49,8 +49,6 @@
const opus_int32 *W_Q18_ptr;
opus_int32 rate_dist_Q14_subfr, rate_dist_Q14, min_rate_dist_Q14;
-TIC(quant_LTP)
-
/***************************************************/
/* iterate over different codebooks with different */
/* rates/distortions, and choose best */
@@ -67,7 +65,6 @@
rate_dist_Q14 = 0;
for( j = 0; j < nb_subfr; j++ ) {
-
silk_VQ_WMat_EC(
&temp_idx[ j ], /* O index of best codebook vector */
&rate_dist_Q14_subfr, /* O best weighted quantization error + mu * rate */
@@ -106,6 +103,5 @@
B_Q14[ j * LTP_ORDER + k ] = silk_LSHIFT( cbk_ptr_Q7[ cbk_index[ j ] * LTP_ORDER + k ], 7 );
}
}
-TOC(quant_LTP)
}
diff --git a/silk/resampler.c b/silk/resampler.c
index 3102d42..eeda054 100644
--- a/silk/resampler.c
+++ b/silk/resampler.c
@@ -53,16 +53,16 @@
#include "resampler_private.h"
-#define USE_silk_resampler_copy (0)
-#define USE_silk_resampler_private_up2_HQ_wrapper (1)
-#define USE_silk_resampler_private_IIR_FIR (2)
-#define USE_silk_resampler_private_down_FIR (3)
+#define USE_silk_resampler_copy (0)
+#define USE_silk_resampler_private_up2_HQ_wrapper (1)
+#define USE_silk_resampler_private_IIR_FIR (2)
+#define USE_silk_resampler_private_down_FIR (3)
/* Initialize/reset the resampler state for a given pair of input/output sampling rates */
opus_int silk_resampler_init(
- silk_resampler_state_struct *S, /* I/O: Resampler state */
- opus_int32 Fs_Hz_in, /* I: Input sampling rate (Hz) */
- opus_int32 Fs_Hz_out /* I: Output sampling rate (Hz) */
+ silk_resampler_state_struct *S, /* I/O Resampler state */
+ opus_int32 Fs_Hz_in, /* I Input sampling rate (Hz) */
+ opus_int32 Fs_Hz_out /* I Output sampling rate (Hz) */
)
{
opus_int32 up2 = 0, down2 = 0;
@@ -71,8 +71,8 @@
silk_memset( S, 0, sizeof( silk_resampler_state_struct ) );
/* Input checking */
- if( (Fs_Hz_in!=8000 && Fs_Hz_in!=12000 && Fs_Hz_in!=16000 && Fs_Hz_in!=24000 && Fs_Hz_in!=48000) ||
- (Fs_Hz_out!=8000 && Fs_Hz_out!=12000 && Fs_Hz_out!=16000 && Fs_Hz_out!=24000 && Fs_Hz_out!=48000) ) {
+ if( ( Fs_Hz_in != 8000 && Fs_Hz_in != 12000 && Fs_Hz_in != 16000 && Fs_Hz_in != 24000 && Fs_Hz_in != 48000 ) ||
+ ( Fs_Hz_out != 8000 && Fs_Hz_out != 12000 && Fs_Hz_out != 16000 && Fs_Hz_out != 24000 && Fs_Hz_out != 48000 ) ) {
silk_assert( 0 );
return -1;
}
@@ -83,7 +83,7 @@
/* Find resampler with the right sampling ratio */
if( Fs_Hz_out > Fs_Hz_in ) {
/* Upsample */
- if( Fs_Hz_out == silk_MUL( Fs_Hz_in, 2 ) ) { /* Fs_out : Fs_in = 2 : 1 */
+ if( Fs_Hz_out == silk_MUL( Fs_Hz_in, 2 ) ) { /* Fs_out : Fs_in = 2 : 1 */
/* Special case: directly use 2x upsampler */
S->resampler_function = USE_silk_resampler_private_up2_HQ_wrapper;
} else {
@@ -93,28 +93,28 @@
}
} else if ( Fs_Hz_out < Fs_Hz_in ) {
/* Downsample */
- if( silk_MUL( Fs_Hz_out, 4 ) == silk_MUL( Fs_Hz_in, 3 ) ) { /* Fs_out : Fs_in = 3 : 4 */
+ if( silk_MUL( Fs_Hz_out, 4 ) == silk_MUL( Fs_Hz_in, 3 ) ) { /* Fs_out : Fs_in = 3 : 4 */
S->FIR_Fracs = 3;
S->Coefs = silk_Resampler_3_4_COEFS;
S->resampler_function = USE_silk_resampler_private_down_FIR;
- } else if( silk_MUL( Fs_Hz_out, 3 ) == silk_MUL( Fs_Hz_in, 2 ) ) { /* Fs_out : Fs_in = 2 : 3 */
+ } else if( silk_MUL( Fs_Hz_out, 3 ) == silk_MUL( Fs_Hz_in, 2 ) ) { /* Fs_out : Fs_in = 2 : 3 */
S->FIR_Fracs = 2;
S->Coefs = silk_Resampler_2_3_COEFS;
S->resampler_function = USE_silk_resampler_private_down_FIR;
- } else if( silk_MUL( Fs_Hz_out, 2 ) == Fs_Hz_in ) { /* Fs_out : Fs_in = 1 : 2 */
+ } else if( silk_MUL( Fs_Hz_out, 2 ) == Fs_Hz_in ) { /* Fs_out : Fs_in = 1 : 2 */
S->FIR_Fracs = 1;
S->Coefs = silk_Resampler_1_2_COEFS;
S->resampler_function = USE_silk_resampler_private_down_FIR;
- } else if( silk_MUL( Fs_Hz_out, 3 ) == Fs_Hz_in ) { /* Fs_out : Fs_in = 1 : 3 */
+ } else if( silk_MUL( Fs_Hz_out, 3 ) == Fs_Hz_in ) { /* Fs_out : Fs_in = 1 : 3 */
S->FIR_Fracs = 1;
S->Coefs = silk_Resampler_1_3_COEFS;
S->resampler_function = USE_silk_resampler_private_down_FIR;
- } else if( silk_MUL( Fs_Hz_out, 4 ) == Fs_Hz_in ) { /* Fs_out : Fs_in = 1 : 4 */
+ } else if( silk_MUL( Fs_Hz_out, 4 ) == Fs_Hz_in ) { /* Fs_out : Fs_in = 1 : 4 */
S->FIR_Fracs = 1;
down2 = 1;
S->Coefs = silk_Resampler_1_2_COEFS;
S->resampler_function = USE_silk_resampler_private_down_FIR;
- } else if( silk_MUL( Fs_Hz_out, 6 ) == Fs_Hz_in ) { /* Fs_out : Fs_in = 1 : 6 */
+ } else if( silk_MUL( Fs_Hz_out, 6 ) == Fs_Hz_in ) { /* Fs_out : Fs_in = 1 : 6 */
S->FIR_Fracs = 1;
down2 = 1;
S->Coefs = silk_Resampler_1_3_COEFS;
@@ -141,16 +141,16 @@
return 0;
}
-/* Resampler: convert from one sampling rate to another */
+/* Resampler: convert from one sampling rate to another */
opus_int silk_resampler(
- silk_resampler_state_struct *S, /* I/O: Resampler state */
- opus_int16 out[], /* O: Output signal */
- const opus_int16 in[], /* I: Input signal */
- opus_int32 inLen /* I: Number of input samples */
+ silk_resampler_state_struct *S, /* I/O Resampler state */
+ opus_int16 out[], /* O Output signal */
+ const opus_int16 in[], /* I Input signal */
+ opus_int32 inLen /* I Number of input samples */
)
{
/* Input and output sampling rate are at most 48000 Hz */
- switch(S->resampler_function) {
+ switch( S->resampler_function ) {
case USE_silk_resampler_private_up2_HQ_wrapper:
silk_resampler_private_up2_HQ_wrapper( S, out, in, inLen );
break;
diff --git a/silk/resampler_down2.c b/silk/resampler_down2.c
index 5a04247..fe33d35 100644
--- a/silk/resampler_down2.c
+++ b/silk/resampler_down2.c
@@ -34,10 +34,10 @@
/* Downsample by a factor 2, mediocre quality */
void silk_resampler_down2(
- opus_int32 *S, /* I/O: State vector [ 2 ] */
- opus_int16 *out, /* O: Output signal [ len ] */
- const opus_int16 *in, /* I: Input signal [ floor(len/2) ] */
- opus_int32 inLen /* I: Number of input samples */
+ opus_int32 *S, /* I/O State vector [ 2 ] */
+ opus_int16 *out, /* O Output signal [ len ] */
+ const opus_int16 *in, /* I Input signal [ floor(len/2) ] */
+ opus_int32 inLen /* I Number of input samples */
)
{
opus_int32 k, len2 = silk_RSHIFT32( inLen, 1 );
diff --git a/silk/resampler_down2_3.c b/silk/resampler_down2_3.c
index bd74c61..9f4f22f 100644
--- a/silk/resampler_down2_3.c
+++ b/silk/resampler_down2_3.c
@@ -36,10 +36,10 @@
/* Downsample by a factor 2/3, low quality */
void silk_resampler_down2_3(
- opus_int32 *S, /* I/O: State vector [ 6 ] */
- opus_int16 *out, /* O: Output signal [ floor(2*inLen/3) ] */
- const opus_int16 *in, /* I: Input signal [ inLen ] */
- opus_int32 inLen /* I: Number of input samples */
+ opus_int32 *S, /* I/O State vector [ 6 ] */
+ opus_int16 *out, /* O Output signal [ floor(2*inLen/3) ] */
+ const opus_int16 *in, /* I Input signal [ inLen ] */
+ opus_int32 inLen /* I Number of input samples */
)
{
opus_int32 nSamplesIn, counter, res_Q6;
diff --git a/silk/resampler_private.h b/silk/resampler_private.h
index 36292c6..50a66cf 100644
--- a/silk/resampler_private.h
+++ b/silk/resampler_private.h
@@ -39,53 +39,45 @@
/* Number of input samples to process in the inner loop */
#define RESAMPLER_MAX_BATCH_SIZE_IN 480
-/* Description: Hybrid IIR/FIR polyphase implementation of resampling */
+/* Description: Hybrid IIR/FIR polyphase implementation of resampling */
void silk_resampler_private_IIR_FIR(
- void *SS, /* I/O: Resampler state */
- opus_int16 out[], /* O: Output signal */
- const opus_int16 in[], /* I: Input signal */
- opus_int32 inLen /* I: Number of input samples */
+ void *SS, /* I/O Resampler state */
+ opus_int16 out[], /* O Output signal */
+ const opus_int16 in[], /* I Input signal */
+ opus_int32 inLen /* I Number of input samples */
);
-/* Description: Hybrid IIR/FIR polyphase implementation of resampling */
+/* Description: Hybrid IIR/FIR polyphase implementation of resampling */
void silk_resampler_private_down_FIR(
- void *SS, /* I/O: Resampler state */
- opus_int16 out[], /* O: Output signal */
- const opus_int16 in[], /* I: Input signal */
- opus_int32 inLen /* I: Number of input samples */
-);
-
-/* Copy */
-void silk_resampler_private_copy(
- void *SS, /* I/O: Resampler state (unused) */
- opus_int16 out[], /* O: Output signal */
- const opus_int16 in[], /* I: Input signal */
- opus_int32 inLen /* I: Number of input samples */
+ void *SS, /* I/O Resampler state */
+ opus_int16 out[], /* O Output signal */
+ const opus_int16 in[], /* I Input signal */
+ opus_int32 inLen /* I Number of input samples */
);
/* Upsample by a factor 2, high quality */
void silk_resampler_private_up2_HQ_wrapper(
- void *SS, /* I/O: Resampler state (unused) */
- opus_int16 *out, /* O: Output signal [ 2 * len ] */
- const opus_int16 *in, /* I: Input signal [ len ] */
- opus_int32 len /* I: Number of input samples */
+ void *SS, /* I/O Resampler state (unused) */
+ opus_int16 *out, /* O Output signal [ 2 * len ] */
+ const opus_int16 *in, /* I Input signal [ len ] */
+ opus_int32 len /* I Number of input samples */
);
/* Upsample by a factor 2, high quality */
void silk_resampler_private_up2_HQ(
- opus_int32 *S, /* I/O: Resampler state [ 6 ] */
- opus_int16 *out, /* O: Output signal [ 2 * len ] */
- const opus_int16 *in, /* I: Input signal [ len ] */
- opus_int32 len /* I: Number of input samples */
+ opus_int32 *S, /* I/O Resampler state [ 6 ] */
+ opus_int16 *out, /* O Output signal [ 2 * len ] */
+ const opus_int16 *in, /* I Input signal [ len ] */
+ opus_int32 len /* I Number of input samples */
);
/* Second order AR filter */
void silk_resampler_private_AR2(
- opus_int32 S[], /* I/O: State vector [ 2 ] */
- opus_int32 out_Q8[], /* O: Output signal */
- const opus_int16 in[], /* I: Input signal */
- const opus_int16 A_Q14[], /* I: AR coefficients, Q14 */
- opus_int32 len /* I: Signal length */
+ opus_int32 S[], /* I/O State vector [ 2 ] */
+ opus_int32 out_Q8[], /* O Output signal */
+ const opus_int16 in[], /* I Input signal */
+ const opus_int16 A_Q14[], /* I AR coefficients, Q14 */
+ opus_int32 len /* I Signal length */
);
#ifdef __cplusplus
diff --git a/silk/resampler_private_AR2.c b/silk/resampler_private_AR2.c
index 5c5b3f1..5add355 100644
--- a/silk/resampler_private_AR2.c
+++ b/silk/resampler_private_AR2.c
@@ -34,11 +34,11 @@
/* Second order AR filter with single delay elements */
void silk_resampler_private_AR2(
- opus_int32 S[], /* I/O: State vector [ 2 ] */
- opus_int32 out_Q8[], /* O: Output signal */
- const opus_int16 in[], /* I: Input signal */
- const opus_int16 A_Q14[], /* I: AR coefficients, Q14 */
- opus_int32 len /* I: Signal length */
+ opus_int32 S[], /* I/O State vector [ 2 ] */
+ opus_int32 out_Q8[], /* O Output signal */
+ const opus_int16 in[], /* I Input signal */
+ const opus_int16 A_Q14[], /* I AR coefficients, Q14 */
+ opus_int32 len /* I Signal length */
)
{
opus_int32 k;
diff --git a/silk/resampler_private_IIR_FIR.c b/silk/resampler_private_IIR_FIR.c
index 9c9ffca..725f857 100644
--- a/silk/resampler_private_IIR_FIR.c
+++ b/silk/resampler_private_IIR_FIR.c
@@ -33,10 +33,16 @@
#include "resampler_private.h"
static inline opus_int16 *silk_resampler_private_IIR_FIR_INTERPOL(
- opus_int16 * out, opus_int16 * buf, opus_int32 max_index_Q16 , opus_int32 index_increment_Q16 ){
+ opus_int16 *out,
+ opus_int16 *buf,
+ opus_int32 max_index_Q16,
+ opus_int32 index_increment_Q16
+)
+{
opus_int32 index_Q16, res_Q15;
opus_int16 *buf_ptr;
opus_int32 table_index;
+
/* Interpolate upsampled signal and store in output array */
for( index_Q16 = 0; index_Q16 < max_index_Q16; index_Q16 += index_increment_Q16 ) {
table_index = silk_SMULWB( index_Q16 & 0xFFFF, 144 );
@@ -54,10 +60,10 @@
}
/* Upsample using a combination of allpass-based 2x upsampling and FIR interpolation */
void silk_resampler_private_IIR_FIR(
- void *SS, /* I/O: Resampler state */
- opus_int16 out[], /* O: Output signal */
- const opus_int16 in[], /* I: Input signal */
- opus_int32 inLen /* I: Number of input samples */
+ void *SS, /* I/O Resampler state */
+ opus_int16 out[], /* O Output signal */
+ const opus_int16 in[], /* I Input signal */
+ opus_int32 inLen /* I Number of input samples */
)
{
silk_resampler_state_struct *S = (silk_resampler_state_struct *)SS;
@@ -65,7 +71,6 @@
opus_int32 max_index_Q16, index_increment_Q16;
opus_int16 buf[ 2 * RESAMPLER_MAX_BATCH_SIZE_IN + RESAMPLER_ORDER_FIR_144 ];
-
/* Copy buffered samples to start of buffer */
silk_memcpy( buf, S->sFIR, RESAMPLER_ORDER_FIR_144 * sizeof( opus_int32 ) );
diff --git a/silk/resampler_private_down_FIR.c b/silk/resampler_private_down_FIR.c
index 028a200..b9c2519 100644
--- a/silk/resampler_private_down_FIR.c
+++ b/silk/resampler_private_down_FIR.c
@@ -33,10 +33,16 @@
#include "resampler_private.h"
static inline opus_int16 *silk_resampler_private_down_FIR_INTERPOL0(
- opus_int16 *out, opus_int32 *buf2, const opus_int16 *FIR_Coefs, opus_int32 max_index_Q16, opus_int32 index_increment_Q16){
-
+ opus_int16 *out,
+ opus_int32 *buf2,
+ const opus_int16 *FIR_Coefs,
+ opus_int32 max_index_Q16,
+ opus_int32 index_increment_Q16
+)
+{
opus_int32 index_Q16, res_Q6;
opus_int32 *buf_ptr;
+
for( index_Q16 = 0; index_Q16 < max_index_Q16; index_Q16 += index_increment_Q16 ) {
/* Integer part gives pointer to buffered input */
buf_ptr = buf2 + silk_RSHIFT( index_Q16, 16 );
@@ -51,19 +57,26 @@
res_Q6 = silk_SMLAWB( res_Q6, silk_ADD32( buf_ptr[ 6 ], buf_ptr[ 9 ] ), FIR_Coefs[ 6 ] );
res_Q6 = silk_SMLAWB( res_Q6, silk_ADD32( buf_ptr[ 7 ], buf_ptr[ 8 ] ), FIR_Coefs[ 7 ] );
- /* Scale down, saturate and store in output array */
+ /* Scale down, saturate and store in output array */
*out++ = (opus_int16)silk_SAT16( silk_RSHIFT_ROUND( res_Q6, 6 ) );
}
return out;
}
static inline opus_int16 *silk_resampler_private_down_FIR_INTERPOL1(
- opus_int16 *out, opus_int32 *buf2, const opus_int16 *FIR_Coefs, opus_int32 max_index_Q16, opus_int32 index_increment_Q16, opus_int32 FIR_Fracs){
-
+ opus_int16 *out,
+ opus_int32 *buf2,
+ const opus_int16 *FIR_Coefs,
+ opus_int32 max_index_Q16,
+ opus_int32 index_increment_Q16,
+ opus_int32 FIR_Fracs
+)
+{
opus_int32 index_Q16, res_Q6;
opus_int32 *buf_ptr;
opus_int32 interpol_ind;
const opus_int16 *interpol_ptr;
+
for( index_Q16 = 0; index_Q16 < max_index_Q16; index_Q16 += index_increment_Q16 ) {
/* Integer part gives pointer to buffered input */
buf_ptr = buf2 + silk_RSHIFT( index_Q16, 16 );
@@ -100,10 +113,10 @@
/* Resample with a 2x downsampler (optional), a 2nd order AR filter followed by FIR interpolation */
void silk_resampler_private_down_FIR(
- void *SS, /* I/O: Resampler state */
- opus_int16 out[], /* O: Output signal */
- const opus_int16 in[], /* I: Input signal */
- opus_int32 inLen /* I: Number of input samples */
+ void *SS, /* I/O Resampler state */
+ opus_int16 out[], /* O Output signal */
+ const opus_int16 in[], /* I Input signal */
+ opus_int32 inLen /* I Number of input samples */
)
{
silk_resampler_state_struct *S = (silk_resampler_state_struct *)SS;
diff --git a/silk/resampler_private_up2_HQ.c b/silk/resampler_private_up2_HQ.c
index e02ee5e..05e6afb 100644
--- a/silk/resampler_private_up2_HQ.c
+++ b/silk/resampler_private_up2_HQ.c
@@ -36,10 +36,10 @@
/* Uses 2nd order allpass filters for the 2x upsampling, followed by a */
/* notch filter just above Nyquist. */
void silk_resampler_private_up2_HQ(
- opus_int32 *S, /* I/O: Resampler state [ 6 ] */
- opus_int16 *out, /* O: Output signal [ 2 * len ] */
- const opus_int16 *in, /* I: Input signal [ len ] */
- opus_int32 len /* I: Number of INPUT samples */
+ opus_int32 *S, /* I/O Resampler state [ 6 ] */
+ opus_int16 *out, /* O Output signal [ 2 * len ] */
+ const opus_int16 *in, /* I Input signal [ len ] */
+ opus_int32 len /* I Number of input samples */
)
{
opus_int32 k;
@@ -102,10 +102,10 @@
}
void silk_resampler_private_up2_HQ_wrapper(
- void *SS, /* I/O: Resampler state (unused) */
- opus_int16 *out, /* O: Output signal [ 2 * len ] */
- const opus_int16 *in, /* I: Input signal [ len ] */
- opus_int32 len /* I: Number of input samples */
+ void *SS, /* I/O Resampler state (unused) */
+ opus_int16 *out, /* O Output signal [ 2 * len ] */
+ const opus_int16 *in, /* I Input signal [ len ] */
+ opus_int32 len /* I Number of input samples */
)
{
silk_resampler_state_struct *S = (silk_resampler_state_struct *)SS;
diff --git a/silk/resampler_rom.c b/silk/resampler_rom.c
index 72217b8..15473e0 100644
--- a/silk/resampler_rom.c
+++ b/silk/resampler_rom.c
@@ -29,8 +29,8 @@
#include "config.h"
#endif
-/* Filter coefficients for IIR/FIR polyphase resampling *
- * Total size: < 600 Words (1.2 kB) */
+/* Filter coefficients for IIR/FIR polyphase resampling *
+ * Total size: < 600 Words (1.2 kB) */
#include "resampler_private.h"
diff --git a/silk/resampler_rom.h b/silk/resampler_rom.h
index ed50600..0eeb944 100644
--- a/silk/resampler_rom.h
+++ b/silk/resampler_rom.h
@@ -39,7 +39,6 @@
#define RESAMPLER_DOWN_ORDER_FIR 16
#define RESAMPLER_ORDER_FIR_144 6
-
/* Tables for 2x downsampler. Values above 32767 intentionally wrap to a negative value. */
extern const opus_int16 silk_resampler_down2_0;
extern const opus_int16 silk_resampler_down2_1;
diff --git a/silk/resampler_structs.h b/silk/resampler_structs.h
index 61dd1bd..eb2844d 100644
--- a/silk/resampler_structs.h
+++ b/silk/resampler_structs.h
@@ -32,13 +32,11 @@
extern "C" {
#endif
-/* Flag to enable support for input/output sampling rates above 48 kHz. Turn off for embedded devices */
#define SILK_RESAMPLER_MAX_FIR_ORDER 16
#define SILK_RESAMPLER_MAX_IIR_ORDER 6
-
typedef struct _silk_resampler_state_struct{
- opus_int32 sIIR[ SILK_RESAMPLER_MAX_IIR_ORDER ]; /* this must be the first element of this struct */
+ opus_int32 sIIR[ SILK_RESAMPLER_MAX_IIR_ORDER ]; /* this must be the first element of this struct */
opus_int32 sFIR[ SILK_RESAMPLER_MAX_FIR_ORDER ];
opus_int32 sDown2[ 2 ];
opus_int32 resampler_function;
@@ -46,7 +44,7 @@
opus_int32 invRatio_Q16;
opus_int32 FIR_Fracs;
opus_int32 input2x;
- const opus_int16 *Coefs;
+ const opus_int16 *Coefs;
} silk_resampler_state_struct;
#ifdef __cplusplus
diff --git a/silk/shell_coder.c b/silk/shell_coder.c
index 2793887..9ec343c 100644
--- a/silk/shell_coder.c
+++ b/silk/shell_coder.c
@@ -34,9 +34,9 @@
/* shell coder; pulse-subframe length is hardcoded */
static inline void combine_pulses(
- opus_int *out, /* O: combined pulses vector [len] */
- const opus_int *in, /* I: input vector [2 * len] */
- const opus_int len /* I: number of OUTPUT samples */
+ opus_int *out, /* O combined pulses vector [len] */
+ const opus_int *in, /* I input vector [2 * len] */
+ const opus_int len /* I number of OUTPUT samples */
)
{
opus_int k;
@@ -47,9 +47,9 @@
static inline void encode_split(
ec_enc *psRangeEnc, /* I/O compressor data structure */
- const opus_int p_child1, /* I: pulse amplitude of first child subframe */
- const opus_int p, /* I: pulse amplitude of current subframe */
- const opus_uint8 *shell_table /* I: table of shell cdfs */
+ const opus_int p_child1, /* I pulse amplitude of first child subframe */
+ const opus_int p, /* I pulse amplitude of current subframe */
+ const opus_uint8 *shell_table /* I table of shell cdfs */
)
{
if( p > 0 ) {
@@ -58,11 +58,11 @@
}
static inline void decode_split(
- opus_int *p_child1, /* O: pulse amplitude of first child subframe */
- opus_int *p_child2, /* O: pulse amplitude of second child subframe */
+ opus_int *p_child1, /* O pulse amplitude of first child subframe */
+ opus_int *p_child2, /* O pulse amplitude of second child subframe */
ec_dec *psRangeDec, /* I/O Compressor data structure */
- const opus_int p, /* I: pulse amplitude of current subframe */
- const opus_uint8 *shell_table /* I: table of shell cdfs */
+ const opus_int p, /* I pulse amplitude of current subframe */
+ const opus_uint8 *shell_table /* I table of shell cdfs */
)
{
if( p > 0 ) {
@@ -76,8 +76,8 @@
/* Shell encoder, operates on one shell code frame of 16 pulses */
void silk_shell_encoder(
- ec_enc *psRangeEnc, /* I/O compressor data structure */
- const opus_int *pulses0 /* I data: nonnegative pulse amplitudes */
+ ec_enc *psRangeEnc, /* I/O compressor data structure */
+ const opus_int *pulses0 /* I data: nonnegative pulse amplitudes */
)
{
opus_int pulses1[ 8 ], pulses2[ 4 ], pulses3[ 2 ], pulses4[ 1 ];
@@ -117,9 +117,9 @@
/* Shell decoder, operates on one shell code frame of 16 pulses */
void silk_shell_decoder(
- opus_int *pulses0, /* O data: nonnegative pulse amplitudes */
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- const opus_int pulses4 /* I number of pulses per pulse-subframe */
+ opus_int *pulses0, /* O data: nonnegative pulse amplitudes */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ const opus_int pulses4 /* I number of pulses per pulse-subframe */
)
{
opus_int pulses3[ 2 ], pulses2[ 4 ], pulses1[ 8 ];
diff --git a/silk/sigm_Q15.c b/silk/sigm_Q15.c
index 7181d29..8d6b84b 100644
--- a/silk/sigm_Q15.c
+++ b/silk/sigm_Q15.c
@@ -46,7 +46,9 @@
16384, 8812, 3906, 1554, 589, 219
};
-opus_int silk_sigm_Q15( opus_int in_Q5 )
+opus_int silk_sigm_Q15(
+ opus_int in_Q5 /* I */
+)
{
opus_int ind;
diff --git a/silk/silk_common.vcxproj b/silk/silk_common.vcxproj
index 5be5cba..b10a6f2 100644
--- a/silk/silk_common.vcxproj
+++ b/silk/silk_common.vcxproj
@@ -1,193 +1,193 @@
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- <ItemGroup Label="ProjectConfigurations">
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- <Platform>Win32</Platform>
- </ProjectConfiguration>
- </ItemGroup>
- <PropertyGroup Label="Globals">
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- <Keyword>Win32Proj</Keyword>
- <RootNamespace>src_common</RootNamespace>
- <ProjectName>silk_common</ProjectName>
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- <PreprocessorDefinitions>HAVE_CONFIG_H;WIN32;_DEBUG;_LIB;%(PreprocessorDefinitions)</PreprocessorDefinitions>
- <AdditionalIncludeDirectories>fixed;float;../win32;../celt</AdditionalIncludeDirectories>
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- <Link>
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- <EnableCOMDATFolding>true</EnableCOMDATFolding>
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- </Link>
- <Lib>
- <OutputFile>$(OutDir)$(TargetName)$(TargetExt)</OutputFile>
- </Lib>
- </ItemDefinitionGroup>
- <ItemGroup>
- <None Include="ReadMe.txt" />
- </ItemGroup>
- <ItemGroup>
- <ClCompile Include="A2NLSF.c" />
- <ClCompile Include="ana_filt_bank_1.c" />
- <ClCompile Include="biquad_alt.c" />
- <ClCompile Include="bwexpander.c" />
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+ <ClCompile Include="resampler_rom.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="shell_coder.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="sigm_Q15.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="sort.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="stereo_decode_pred.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="stereo_encode_pred.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="stereo_find_predictor.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="stereo_LR_to_MS.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="stereo_MS_to_LR.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="stereo_quant_pred.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="sum_sqr_shift.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="tables_gain.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="tables_LTP.c">
+ <Filter>Source Files</Filter>
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+ <ClCompile Include="tables_NLSF_CB_NB_MB.c">
+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ <Filter>Source Files</Filter>
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+ </ItemGroup>
+ <ItemGroup>
+ <ClInclude Include="..\win32\config.h">
+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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\ No newline at end of file
diff --git a/silk/sort.c b/silk/sort.c
index 26d8171..1d92ed3 100644
--- a/silk/sort.c
+++ b/silk/sort.c
@@ -38,10 +38,10 @@
#include "SigProc_FIX.h"
void silk_insertion_sort_increasing(
- opus_int32 *a, /* I/O: Unsorted / Sorted vector */
- opus_int *idx, /* O: Index vector for the sorted elements */
- const opus_int L, /* I: Vector length */
- const opus_int K /* I: Number of correctly sorted positions */
+ opus_int32 *a, /* I/O Unsorted / Sorted vector */
+ opus_int *idx, /* O Index vector for the sorted elements */
+ const opus_int L, /* I Vector length */
+ const opus_int K /* I Number of correctly sorted positions */
)
{
opus_int32 value;
@@ -84,10 +84,10 @@
}
void silk_insertion_sort_decreasing_int16(
- opus_int16 *a, /* I/O: Unsorted / Sorted vector */
- opus_int *idx, /* O: Index vector for the sorted elements */
- const opus_int L, /* I: Vector length */
- const opus_int K /* I: Number of correctly sorted positions */
+ opus_int16 *a, /* I/O Unsorted / Sorted vector */
+ opus_int *idx, /* O Index vector for the sorted elements */
+ const opus_int L, /* I Vector length */
+ const opus_int K /* I Number of correctly sorted positions */
)
{
opus_int i, j;
@@ -130,8 +130,8 @@
}
void silk_insertion_sort_increasing_all_values_int16(
- opus_int16 *a, /* I/O: Unsorted / Sorted vector */
- const opus_int L /* I: Vector length */
+ opus_int16 *a, /* I/O Unsorted / Sorted vector */
+ const opus_int L /* I Vector length */
)
{
opus_int value;
diff --git a/silk/stereo_LR_to_MS.c b/silk/stereo_LR_to_MS.c
index bbcd30b..df600e6 100644
--- a/silk/stereo_LR_to_MS.c
+++ b/silk/stereo_LR_to_MS.c
@@ -33,17 +33,17 @@
/* Convert Left/Right stereo signal to adaptive Mid/Side representation */
void silk_stereo_LR_to_MS(
- stereo_enc_state *state, /* I/O State */
- opus_int16 x1[], /* I/O Left input signal, becomes mid signal */
- opus_int16 x2[], /* I/O Right input signal, becomes side signal */
- opus_int8 ix[ 2 ][ 3 ], /* O Quantization indices */
- opus_int8 *mid_only_flag, /* O Flag: only mid signal coded */
- opus_int32 mid_side_rates_bps[], /* O Bitrates for mid and side signals */
- opus_int32 total_rate_bps, /* I Total bitrate */
- opus_int prev_speech_act_Q8, /* I Speech activity level in previous frame */
- opus_int toMono, /* I Last frame before a stereo->mono transition */
- opus_int fs_kHz, /* I Sample rate (kHz) */
- opus_int frame_length /* I Number of samples */
+ stereo_enc_state *state, /* I/O State */
+ opus_int16 x1[], /* I/O Left input signal, becomes mid signal */
+ opus_int16 x2[], /* I/O Right input signal, becomes side signal */
+ opus_int8 ix[ 2 ][ 3 ], /* O Quantization indices */
+ opus_int8 *mid_only_flag, /* O Flag: only mid signal coded */
+ opus_int32 mid_side_rates_bps[], /* O Bitrates for mid and side signals */
+ opus_int32 total_rate_bps, /* I Total bitrate */
+ opus_int prev_speech_act_Q8, /* I Speech activity level in previous frame */
+ opus_int toMono, /* I Last frame before a stereo->mono transition */
+ opus_int fs_kHz, /* I Sample rate (kHz) */
+ opus_int frame_length /* I Number of samples */
)
{
opus_int n, is10msFrame, denom_Q16, delta0_Q13, delta1_Q13;
@@ -185,12 +185,6 @@
mid_side_rates_bps[ 1 ] = 1;
mid_side_rates_bps[ 0 ] = silk_max_int( 1, total_rate_bps - mid_side_rates_bps[ 1 ]);
}
-#if 0
- DEBUG_STORE_DATA( midside.dat, &mid_side_rates_bps[ 0 ], 8 );
- DEBUG_STORE_DATA( norms0.pcm, &state->mid_side_amp_Q0[0], 8 );
- DEBUG_STORE_DATA( norms1.pcm, &state->mid_side_amp_Q0[2], 8 );
- DEBUG_STORE_DATA( width.pcm, &width_Q14, 4 );
-#endif
/* Interpolate predictors and subtract prediction from side channel */
pred0_Q13 = -state->pred_prev_Q13[ 0 ];
diff --git a/silk/stereo_MS_to_LR.c b/silk/stereo_MS_to_LR.c
index efd72c4..e95e47b 100644
--- a/silk/stereo_MS_to_LR.c
+++ b/silk/stereo_MS_to_LR.c
@@ -33,12 +33,12 @@
/* Convert adaptive Mid/Side representation to Left/Right stereo signal */
void silk_stereo_MS_to_LR(
- stereo_dec_state *state, /* I/O State */
- opus_int16 x1[], /* I/O Left input signal, becomes mid signal */
- opus_int16 x2[], /* I/O Right input signal, becomes side signal */
- const opus_int32 pred_Q13[], /* I Predictors */
- opus_int fs_kHz, /* I Samples rate (kHz) */
- opus_int frame_length /* I Number of samples */
+ stereo_dec_state *state, /* I/O State */
+ opus_int16 x1[], /* I/O Left input signal, becomes mid signal */
+ opus_int16 x2[], /* I/O Right input signal, becomes side signal */
+ const opus_int32 pred_Q13[], /* I Predictors */
+ opus_int fs_kHz, /* I Samples rate (kHz) */
+ opus_int frame_length /* I Number of samples */
)
{
opus_int n, denom_Q16, delta0_Q13, delta1_Q13;
diff --git a/silk/stereo_decode_pred.c b/silk/stereo_decode_pred.c
index 43886f1..a7c2e41 100644
--- a/silk/stereo_decode_pred.c
+++ b/silk/stereo_decode_pred.c
@@ -33,8 +33,8 @@
/* Decode mid/side predictors */
void silk_stereo_decode_pred(
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int32 pred_Q13[] /* O Predictors */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int32 pred_Q13[] /* O Predictors */
)
{
opus_int n, ix[ 2 ][ 3 ];
@@ -64,8 +64,8 @@
/* Decode mid-only flag */
void silk_stereo_decode_mid_only(
- ec_dec *psRangeDec, /* I/O Compressor data structure */
- opus_int *decode_only_mid /* O Flag that only mid channel has been coded */
+ ec_dec *psRangeDec, /* I/O Compressor data structure */
+ opus_int *decode_only_mid /* O Flag that only mid channel has been coded */
)
{
/* Decode flag that only mid channel is coded */
diff --git a/silk/stereo_encode_pred.c b/silk/stereo_encode_pred.c
index a6419f2..0b78a2e 100644
--- a/silk/stereo_encode_pred.c
+++ b/silk/stereo_encode_pred.c
@@ -33,8 +33,8 @@
/* Entropy code the mid/side quantization indices */
void silk_stereo_encode_pred(
- ec_enc *psRangeEnc, /* I/O Compressor data structure */
- opus_int8 ix[ 2 ][ 3 ] /* I Quantization indices */
+ ec_enc *psRangeEnc, /* I/O Compressor data structure */
+ opus_int8 ix[ 2 ][ 3 ] /* I Quantization indices */
)
{
opus_int n;
@@ -53,8 +53,8 @@
/* Entropy code the mid-only flag */
void silk_stereo_encode_mid_only(
- ec_enc *psRangeEnc, /* I/O Compressor data structure */
- opus_int8 mid_only_flag
+ ec_enc *psRangeEnc, /* I/O Compressor data structure */
+ opus_int8 mid_only_flag
)
{
/* Encode flag that only mid channel is coded */
diff --git a/silk/stereo_find_predictor.c b/silk/stereo_find_predictor.c
index d7be0f5..9460bf7 100644
--- a/silk/stereo_find_predictor.c
+++ b/silk/stereo_find_predictor.c
@@ -32,13 +32,13 @@
#include "main.h"
/* Find least-squares prediction gain for one signal based on another and quantize it */
-opus_int32 silk_stereo_find_predictor( /* O Returns predictor in Q13 */
- opus_int32 *ratio_Q14, /* O Ratio of residual and mid energies */
- const opus_int16 x[], /* I Basis signal */
- const opus_int16 y[], /* I Target signal */
- opus_int32 mid_res_amp_Q0[], /* I/O Smoothed mid, residual norms */
- opus_int length, /* I Number of samples */
- opus_int smooth_coef_Q16 /* I Smoothing coefficient */
+opus_int32 silk_stereo_find_predictor( /* O Returns predictor in Q13 */
+ opus_int32 *ratio_Q14, /* O Ratio of residual and mid energies */
+ const opus_int16 x[], /* I Basis signal */
+ const opus_int16 y[], /* I Target signal */
+ opus_int32 mid_res_amp_Q0[], /* I/O Smoothed mid, residual norms */
+ opus_int length, /* I Number of samples */
+ opus_int smooth_coef_Q16 /* I Smoothing coefficient */
)
{
opus_int scale, scale1, scale2;
diff --git a/silk/stereo_quant_pred.c b/silk/stereo_quant_pred.c
index f91ed92..faacf04 100644
--- a/silk/stereo_quant_pred.c
+++ b/silk/stereo_quant_pred.c
@@ -33,8 +33,8 @@
/* Quantize mid/side predictors */
void silk_stereo_quant_pred(
- opus_int32 pred_Q13[], /* I/O Predictors (out: quantized) */
- opus_int8 ix[ 2 ][ 3 ] /* O Quantization indices */
+ opus_int32 pred_Q13[], /* I/O Predictors (out: quantized) */
+ opus_int8 ix[ 2 ][ 3 ] /* O Quantization indices */
)
{
opus_int i, j, n;
diff --git a/silk/structs.h b/silk/structs.h
index 51c0f86..0275019 100644
--- a/silk/structs.h
+++ b/silk/structs.h
@@ -43,40 +43,40 @@
/* Noise shaping quantization state */
/************************************/
typedef struct {
- opus_int16 xq[ 2 * MAX_FRAME_LENGTH ]; /* Buffer for quantized output signal */
- opus_int32 sLTP_shp_Q10[ 2 * MAX_FRAME_LENGTH ];
- opus_int32 sLPC_Q14[ MAX_SUB_FRAME_LENGTH + NSQ_LPC_BUF_LENGTH ];
- opus_int32 sAR2_Q14[ MAX_SHAPE_LPC_ORDER ];
- opus_int32 sLF_AR_shp_Q12;
- opus_int lagPrev;
- opus_int sLTP_buf_idx;
- opus_int sLTP_shp_buf_idx;
- opus_int32 rand_seed;
- opus_int32 prev_inv_gain_Q16;
- opus_int rewhite_flag;
+ opus_int16 xq[ 2 * MAX_FRAME_LENGTH ]; /* Buffer for quantized output signal */
+ opus_int32 sLTP_shp_Q10[ 2 * MAX_FRAME_LENGTH ];
+ opus_int32 sLPC_Q14[ MAX_SUB_FRAME_LENGTH + NSQ_LPC_BUF_LENGTH ];
+ opus_int32 sAR2_Q14[ MAX_SHAPE_LPC_ORDER ];
+ opus_int32 sLF_AR_shp_Q12;
+ opus_int lagPrev;
+ opus_int sLTP_buf_idx;
+ opus_int sLTP_shp_buf_idx;
+ opus_int32 rand_seed;
+ opus_int32 prev_inv_gain_Q16;
+ opus_int rewhite_flag;
} silk_nsq_state;
/********************************/
/* VAD state */
/********************************/
typedef struct {
- opus_int32 AnaState[ 2 ]; /* Analysis filterbank state: 0-8 kHz */
- opus_int32 AnaState1[ 2 ]; /* Analysis filterbank state: 0-4 kHz */
- opus_int32 AnaState2[ 2 ]; /* Analysis filterbank state: 0-2 kHz */
- opus_int32 XnrgSubfr[ VAD_N_BANDS ]; /* Subframe energies */
- opus_int32 NrgRatioSmth_Q8[ VAD_N_BANDS ]; /* Smoothed energy level in each band */
- opus_int16 HPstate; /* State of differentiator in the lowest band */
- opus_int32 NL[ VAD_N_BANDS ]; /* Noise energy level in each band */
- opus_int32 inv_NL[ VAD_N_BANDS ]; /* Inverse noise energy level in each band */
- opus_int32 NoiseLevelBias[ VAD_N_BANDS ]; /* Noise level estimator bias/offset */
- opus_int32 counter; /* Frame counter used in the initial phase */
+ opus_int32 AnaState[ 2 ]; /* Analysis filterbank state: 0-8 kHz */
+ opus_int32 AnaState1[ 2 ]; /* Analysis filterbank state: 0-4 kHz */
+ opus_int32 AnaState2[ 2 ]; /* Analysis filterbank state: 0-2 kHz */
+ opus_int32 XnrgSubfr[ VAD_N_BANDS ]; /* Subframe energies */
+ opus_int32 NrgRatioSmth_Q8[ VAD_N_BANDS ]; /* Smoothed energy level in each band */
+ opus_int16 HPstate; /* State of differentiator in the lowest band */
+ opus_int32 NL[ VAD_N_BANDS ]; /* Noise energy level in each band */
+ opus_int32 inv_NL[ VAD_N_BANDS ]; /* Inverse noise energy level in each band */
+ opus_int32 NoiseLevelBias[ VAD_N_BANDS ]; /* Noise level estimator bias/offset */
+ opus_int32 counter; /* Frame counter used in the initial phase */
} silk_VAD_state;
/* Variable cut-off low-pass filter state */
typedef struct {
opus_int32 In_LP_State[ 2 ]; /* Low pass filter state */
opus_int32 transition_frame_no; /* Counter which is mapped to a cut-off frequency */
- opus_int mode; /* Operating mode, <0: switch down, >0: switch up; 0: do nothing */
+ opus_int mode; /* Operating mode, <0: switch down, >0: switch up; 0: do nothing */
} silk_LP_state;
/* Structure containing NLSF codebook */
@@ -130,176 +130,176 @@
/* Encoder state */
/********************************/
typedef struct {
- opus_int32 In_HP_State[ 2 ]; /* High pass filter state */
- opus_int32 variable_HP_smth1_Q15; /* State of first smoother */
- opus_int32 variable_HP_smth2_Q15; /* State of second smoother */
- silk_LP_state sLP; /* Low pass filter state */
- silk_VAD_state sVAD; /* Voice activity detector state */
- silk_nsq_state sNSQ; /* Noise Shape Quantizer State */
- opus_int16 prev_NLSFq_Q15[ MAX_LPC_ORDER ];/* Previously quantized NLSF vector */
- opus_int speech_activity_Q8; /* Speech activity */
- opus_int allow_bandwidth_switch; /* Flag indicating that switching of internal bandwidth is allowed */
- opus_int8 LBRRprevLastGainIndex;
- opus_int8 prevSignalType;
- opus_int prevLag;
- opus_int pitch_LPC_win_length;
- opus_int max_pitch_lag; /* Highest possible pitch lag (samples) */
- opus_int32 API_fs_Hz; /* API sampling frequency (Hz) */
- opus_int32 prev_API_fs_Hz; /* Previous API sampling frequency (Hz) */
- opus_int maxInternal_fs_Hz; /* Maximum internal sampling frequency (Hz) */
- opus_int minInternal_fs_Hz; /* Minimum internal sampling frequency (Hz) */
- opus_int desiredInternal_fs_Hz; /* Soft request for internal sampling frequency (Hz) */
- opus_int fs_kHz; /* Internal sampling frequency (kHz) */
- opus_int delay; /* Number of samples of delay to apply */
- opus_int nb_subfr; /* Number of 5 ms subframes in a frame */
- opus_int frame_length; /* Frame length (samples) */
- opus_int subfr_length; /* Subframe length (samples) */
- opus_int ltp_mem_length; /* Length of LTP memory */
- opus_int la_pitch; /* Look-ahead for pitch analysis (samples) */
- opus_int la_shape; /* Look-ahead for noise shape analysis (samples) */
- opus_int shapeWinLength; /* Window length for noise shape analysis (samples) */
- opus_int32 TargetRate_bps; /* Target bitrate (bps) */
- opus_int PacketSize_ms; /* Number of milliseconds to put in each packet */
- opus_int PacketLoss_perc; /* Packet loss rate measured by farend */
- opus_int32 frameCounter;
- opus_int Complexity; /* Complexity setting */
- opus_int nStatesDelayedDecision; /* Number of states in delayed decision quantization */
- opus_int useInterpolatedNLSFs; /* Flag for using NLSF interpolation */
- opus_int shapingLPCOrder; /* Filter order for noise shaping filters */
- opus_int predictLPCOrder; /* Filter order for prediction filters */
- opus_int pitchEstimationComplexity; /* Complexity level for pitch estimator */
- opus_int pitchEstimationLPCOrder; /* Whitening filter order for pitch estimator */
- opus_int32 pitchEstimationThreshold_Q16; /* Threshold for pitch estimator */
- opus_int LTPQuantLowComplexity; /* Flag for low complexity LTP quantization */
- opus_int mu_LTP_Q9; /* Rate-distortion tradeoff in LTP quantization */
- opus_int NLSF_MSVQ_Survivors; /* Number of survivors in NLSF MSVQ */
- opus_int first_frame_after_reset; /* Flag for deactivating NLSF interpolation, pitch prediction */
- opus_int controlled_since_last_payload; /* Flag for ensuring codec_control only runs once per packet */
- opus_int warping_Q16; /* Warping parameter for warped noise shaping */
- opus_int useCBR; /* Flag to enable constant bitrate */
- opus_int prefillFlag; /* Flag to indicate that only buffers are prefilled, no coding */
- const opus_uint8 *pitch_lag_low_bits_iCDF; /* Pointer to iCDF table for low bits of pitch lag index */
- const opus_uint8 *pitch_contour_iCDF; /* Pointer to iCDF table for pitch contour index */
- const silk_NLSF_CB_struct *psNLSF_CB; /* Pointer to NLSF codebook */
- opus_int input_quality_bands_Q15[ VAD_N_BANDS ];
- opus_int input_tilt_Q15;
- opus_int SNR_dB_Q7; /* Quality setting */
+ opus_int32 In_HP_State[ 2 ]; /* High pass filter state */
+ opus_int32 variable_HP_smth1_Q15; /* State of first smoother */
+ opus_int32 variable_HP_smth2_Q15; /* State of second smoother */
+ silk_LP_state sLP; /* Low pass filter state */
+ silk_VAD_state sVAD; /* Voice activity detector state */
+ silk_nsq_state sNSQ; /* Noise Shape Quantizer State */
+ opus_int16 prev_NLSFq_Q15[ MAX_LPC_ORDER ]; /* Previously quantized NLSF vector */
+ opus_int speech_activity_Q8; /* Speech activity */
+ opus_int allow_bandwidth_switch; /* Flag indicating that switching of internal bandwidth is allowed */
+ opus_int8 LBRRprevLastGainIndex;
+ opus_int8 prevSignalType;
+ opus_int prevLag;
+ opus_int pitch_LPC_win_length;
+ opus_int max_pitch_lag; /* Highest possible pitch lag (samples) */
+ opus_int32 API_fs_Hz; /* API sampling frequency (Hz) */
+ opus_int32 prev_API_fs_Hz; /* Previous API sampling frequency (Hz) */
+ opus_int maxInternal_fs_Hz; /* Maximum internal sampling frequency (Hz) */
+ opus_int minInternal_fs_Hz; /* Minimum internal sampling frequency (Hz) */
+ opus_int desiredInternal_fs_Hz; /* Soft request for internal sampling frequency (Hz) */
+ opus_int fs_kHz; /* Internal sampling frequency (kHz) */
+ opus_int delay; /* Number of samples of delay to apply */
+ opus_int nb_subfr; /* Number of 5 ms subframes in a frame */
+ opus_int frame_length; /* Frame length (samples) */
+ opus_int subfr_length; /* Subframe length (samples) */
+ opus_int ltp_mem_length; /* Length of LTP memory */
+ opus_int la_pitch; /* Look-ahead for pitch analysis (samples) */
+ opus_int la_shape; /* Look-ahead for noise shape analysis (samples) */
+ opus_int shapeWinLength; /* Window length for noise shape analysis (samples) */
+ opus_int32 TargetRate_bps; /* Target bitrate (bps) */
+ opus_int PacketSize_ms; /* Number of milliseconds to put in each packet */
+ opus_int PacketLoss_perc; /* Packet loss rate measured by farend */
+ opus_int32 frameCounter;
+ opus_int Complexity; /* Complexity setting */
+ opus_int nStatesDelayedDecision; /* Number of states in delayed decision quantization */
+ opus_int useInterpolatedNLSFs; /* Flag for using NLSF interpolation */
+ opus_int shapingLPCOrder; /* Filter order for noise shaping filters */
+ opus_int predictLPCOrder; /* Filter order for prediction filters */
+ opus_int pitchEstimationComplexity; /* Complexity level for pitch estimator */
+ opus_int pitchEstimationLPCOrder; /* Whitening filter order for pitch estimator */
+ opus_int32 pitchEstimationThreshold_Q16; /* Threshold for pitch estimator */
+ opus_int LTPQuantLowComplexity; /* Flag for low complexity LTP quantization */
+ opus_int mu_LTP_Q9; /* Rate-distortion tradeoff in LTP quantization */
+ opus_int NLSF_MSVQ_Survivors; /* Number of survivors in NLSF MSVQ */
+ opus_int first_frame_after_reset; /* Flag for deactivating NLSF interpolation, pitch prediction */
+ opus_int controlled_since_last_payload; /* Flag for ensuring codec_control only runs once per packet */
+ opus_int warping_Q16; /* Warping parameter for warped noise shaping */
+ opus_int useCBR; /* Flag to enable constant bitrate */
+ opus_int prefillFlag; /* Flag to indicate that only buffers are prefilled, no coding */
+ const opus_uint8 *pitch_lag_low_bits_iCDF; /* Pointer to iCDF table for low bits of pitch lag index */
+ const opus_uint8 *pitch_contour_iCDF; /* Pointer to iCDF table for pitch contour index */
+ const silk_NLSF_CB_struct *psNLSF_CB; /* Pointer to NLSF codebook */
+ opus_int input_quality_bands_Q15[ VAD_N_BANDS ];
+ opus_int input_tilt_Q15;
+ opus_int SNR_dB_Q7; /* Quality setting */
- opus_int8 VAD_flags[ MAX_FRAMES_PER_PACKET ];
- opus_int8 LBRR_flag;
- opus_int LBRR_flags[ MAX_FRAMES_PER_PACKET ];
+ opus_int8 VAD_flags[ MAX_FRAMES_PER_PACKET ];
+ opus_int8 LBRR_flag;
+ opus_int LBRR_flags[ MAX_FRAMES_PER_PACKET ];
- SideInfoIndices indices;
- opus_int8 pulses[ MAX_FRAME_LENGTH ];
+ SideInfoIndices indices;
+ opus_int8 pulses[ MAX_FRAME_LENGTH ];
/* Input/output buffering */
- opus_int16 inputBuf[ MAX_FRAME_LENGTH + 2 ]; /* Buffer containing input signal */
- opus_int16 delayBuf[MAX_ENCODER_DELAY];
- opus_int inputBufIx;
- opus_int nFramesPerPacket;
- opus_int nFramesEncoded; /* Number of frames analyzed in current packet */
+ opus_int16 inputBuf[ MAX_FRAME_LENGTH + 2 ]; /* Buffer containing input signal */
+ opus_int16 delayBuf[MAX_ENCODER_DELAY];
+ opus_int inputBufIx;
+ opus_int nFramesPerPacket;
+ opus_int nFramesEncoded; /* Number of frames analyzed in current packet */
- opus_int nChannelsAPI;
- opus_int nChannelsInternal;
- opus_int channelNb;
+ opus_int nChannelsAPI;
+ opus_int nChannelsInternal;
+ opus_int channelNb;
/* Parameters For LTP scaling Control */
- opus_int frames_since_onset;
+ opus_int frames_since_onset;
/* Specifically for entropy coding */
- opus_int ec_prevSignalType;
- opus_int16 ec_prevLagIndex;
+ opus_int ec_prevSignalType;
+ opus_int16 ec_prevLagIndex;
silk_resampler_state_struct resampler_state;
/* DTX */
- opus_int useDTX; /* Flag to enable DTX */
- opus_int inDTX; /* Flag to signal DTX period */
- opus_int noSpeechCounter; /* Counts concecutive nonactive frames, used by DTX */
+ opus_int useDTX; /* Flag to enable DTX */
+ opus_int inDTX; /* Flag to signal DTX period */
+ opus_int noSpeechCounter; /* Counts concecutive nonactive frames, used by DTX */
/* Inband Low Bitrate Redundancy (LBRR) data */
- opus_int useInBandFEC; /* Saves the API setting for query */
- opus_int LBRR_enabled; /* Depends on useInBandFRC, bitrate and packet loss rate */
- opus_int LBRR_GainIncreases; /* Gains increment for coding LBRR frames */
- SideInfoIndices indices_LBRR[ MAX_FRAMES_PER_PACKET ];
- opus_int8 pulses_LBRR[ MAX_FRAMES_PER_PACKET ][ MAX_FRAME_LENGTH ];
+ opus_int useInBandFEC; /* Saves the API setting for query */
+ opus_int LBRR_enabled; /* Depends on useInBandFRC, bitrate and packet loss rate */
+ opus_int LBRR_GainIncreases; /* Gains increment for coding LBRR frames */
+ SideInfoIndices indices_LBRR[ MAX_FRAMES_PER_PACKET ];
+ opus_int8 pulses_LBRR[ MAX_FRAMES_PER_PACKET ][ MAX_FRAME_LENGTH ];
} silk_encoder_state;
/* Struct for Packet Loss Concealment */
typedef struct {
- opus_int32 pitchL_Q8; /* Pitch lag to use for voiced concealment */
- opus_int16 LTPCoef_Q14[ LTP_ORDER ]; /* LTP coeficients to use for voiced concealment */
- opus_int16 prevLPC_Q12[ MAX_LPC_ORDER ];
- opus_int last_frame_lost; /* Was previous frame lost */
- opus_int32 rand_seed; /* Seed for unvoiced signal generation */
- opus_int16 randScale_Q14; /* Scaling of unvoiced random signal */
- opus_int32 conc_energy;
- opus_int conc_energy_shift;
- opus_int16 prevLTP_scale_Q14;
- opus_int32 prevGain_Q16[ MAX_NB_SUBFR ];
- opus_int fs_kHz;
+ opus_int32 pitchL_Q8; /* Pitch lag to use for voiced concealment */
+ opus_int16 LTPCoef_Q14[ LTP_ORDER ]; /* LTP coeficients to use for voiced concealment */
+ opus_int16 prevLPC_Q12[ MAX_LPC_ORDER ];
+ opus_int last_frame_lost; /* Was previous frame lost */
+ opus_int32 rand_seed; /* Seed for unvoiced signal generation */
+ opus_int16 randScale_Q14; /* Scaling of unvoiced random signal */
+ opus_int32 conc_energy;
+ opus_int conc_energy_shift;
+ opus_int16 prevLTP_scale_Q14;
+ opus_int32 prevGain_Q16[ MAX_NB_SUBFR ];
+ opus_int fs_kHz;
} silk_PLC_struct;
/* Struct for CNG */
typedef struct {
- opus_int32 CNG_exc_buf_Q10[ MAX_FRAME_LENGTH ];
- opus_int16 CNG_smth_NLSF_Q15[ MAX_LPC_ORDER ];
- opus_int32 CNG_synth_state[ MAX_LPC_ORDER ];
- opus_int32 CNG_smth_Gain_Q16;
- opus_int32 rand_seed;
- opus_int fs_kHz;
+ opus_int32 CNG_exc_buf_Q10[ MAX_FRAME_LENGTH ];
+ opus_int16 CNG_smth_NLSF_Q15[ MAX_LPC_ORDER ];
+ opus_int32 CNG_synth_state[ MAX_LPC_ORDER ];
+ opus_int32 CNG_smth_Gain_Q16;
+ opus_int32 rand_seed;
+ opus_int fs_kHz;
} silk_CNG_struct;
/********************************/
/* Decoder state */
/********************************/
typedef struct {
- opus_int32 prev_inv_gain_Q16;
- opus_int32 exc_Q10[ MAX_FRAME_LENGTH ];
- opus_int32 sLPC_Q14_buf[ MAX_LPC_ORDER ];
- opus_int16 outBuf[ MAX_FRAME_LENGTH + 2 * MAX_SUB_FRAME_LENGTH ]; /* Buffer for output signal */
- opus_int16 delayBuf[ MAX_DECODER_DELAY ]; /* Buffer for delaying the SILK output prior to resampling */
- opus_int delay; /* How much decoder delay to add */
- opus_int lagPrev; /* Previous Lag */
- opus_int8 LastGainIndex; /* Previous gain index */
- opus_int fs_kHz; /* Sampling frequency in kHz */
- opus_int32 fs_API_hz; /* API sample frequency (Hz) */
- opus_int nb_subfr; /* Number of 5 ms subframes in a frame */
- opus_int frame_length; /* Frame length (samples) */
- opus_int subfr_length; /* Subframe length (samples) */
- opus_int ltp_mem_length; /* Length of LTP memory */
- opus_int LPC_order; /* LPC order */
- opus_int16 prevNLSF_Q15[ MAX_LPC_ORDER ]; /* Used to interpolate LSFs */
- opus_int first_frame_after_reset; /* Flag for deactivating NLSF interpolation */
- const opus_uint8 *pitch_lag_low_bits_iCDF; /* Pointer to iCDF table for low bits of pitch lag index */
- const opus_uint8 *pitch_contour_iCDF; /* Pointer to iCDF table for pitch contour index */
+ opus_int32 prev_inv_gain_Q16;
+ opus_int32 exc_Q10[ MAX_FRAME_LENGTH ];
+ opus_int32 sLPC_Q14_buf[ MAX_LPC_ORDER ];
+ opus_int16 outBuf[ MAX_FRAME_LENGTH + 2 * MAX_SUB_FRAME_LENGTH ]; /* Buffer for output signal */
+ opus_int16 delayBuf[ MAX_DECODER_DELAY ]; /* Buffer for delaying the SILK output prior to resampling */
+ opus_int delay; /* How much decoder delay to add */
+ opus_int lagPrev; /* Previous Lag */
+ opus_int8 LastGainIndex; /* Previous gain index */
+ opus_int fs_kHz; /* Sampling frequency in kHz */
+ opus_int32 fs_API_hz; /* API sample frequency (Hz) */
+ opus_int nb_subfr; /* Number of 5 ms subframes in a frame */
+ opus_int frame_length; /* Frame length (samples) */
+ opus_int subfr_length; /* Subframe length (samples) */
+ opus_int ltp_mem_length; /* Length of LTP memory */
+ opus_int LPC_order; /* LPC order */
+ opus_int16 prevNLSF_Q15[ MAX_LPC_ORDER ]; /* Used to interpolate LSFs */
+ opus_int first_frame_after_reset; /* Flag for deactivating NLSF interpolation */
+ const opus_uint8 *pitch_lag_low_bits_iCDF; /* Pointer to iCDF table for low bits of pitch lag index */
+ const opus_uint8 *pitch_contour_iCDF; /* Pointer to iCDF table for pitch contour index */
/* For buffering payload in case of more frames per packet */
- opus_int nFramesDecoded;
- opus_int nFramesPerPacket;
+ opus_int nFramesDecoded;
+ opus_int nFramesPerPacket;
/* Specifically for entropy coding */
- opus_int ec_prevSignalType;
- opus_int16 ec_prevLagIndex;
+ opus_int ec_prevSignalType;
+ opus_int16 ec_prevLagIndex;
- opus_int VAD_flags[ MAX_FRAMES_PER_PACKET ];
- opus_int LBRR_flag;
- opus_int LBRR_flags[ MAX_FRAMES_PER_PACKET ];
+ opus_int VAD_flags[ MAX_FRAMES_PER_PACKET ];
+ opus_int LBRR_flag;
+ opus_int LBRR_flags[ MAX_FRAMES_PER_PACKET ];
silk_resampler_state_struct resampler_state;
- const silk_NLSF_CB_struct *psNLSF_CB; /* Pointer to NLSF codebook */
+ const silk_NLSF_CB_struct *psNLSF_CB; /* Pointer to NLSF codebook */
/* Quantization indices */
- SideInfoIndices indices;
+ SideInfoIndices indices;
/* CNG state */
- silk_CNG_struct sCNG;
+ silk_CNG_struct sCNG;
/* Stuff used for PLC */
- opus_int lossCnt;
- opus_int prevSignalType;
+ opus_int lossCnt;
+ opus_int prevSignalType;
silk_PLC_struct sPLC;
@@ -309,13 +309,13 @@
/* Decoder control */
/************************/
typedef struct {
- /* prediction and coding parameters */
- opus_int pitchL[ MAX_NB_SUBFR ];
- opus_int32 Gains_Q16[ MAX_NB_SUBFR ];
- /* holds interpolated and final coefficients, 4-byte aligned */
+ /* Prediction and coding parameters */
+ opus_int pitchL[ MAX_NB_SUBFR ];
+ opus_int32 Gains_Q16[ MAX_NB_SUBFR ];
+ /* Holds interpolated and final coefficients, 4-byte aligned */
silk_DWORD_ALIGN opus_int16 PredCoef_Q12[ 2 ][ MAX_LPC_ORDER ];
- opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ];
- opus_int LTP_scale_Q14;
+ opus_int16 LTPCoef_Q14[ LTP_ORDER * MAX_NB_SUBFR ];
+ opus_int LTP_scale_Q14;
} silk_decoder_control;
diff --git a/silk/sum_sqr_shift.c b/silk/sum_sqr_shift.c
index dcadf1b..246d5f4 100644
--- a/silk/sum_sqr_shift.c
+++ b/silk/sum_sqr_shift.c
@@ -34,10 +34,10 @@
/* Compute number of bits to right shift the sum of squares of a vector */
/* of int16s to make it fit in an int32 */
void silk_sum_sqr_shift(
- opus_int32 *energy, /* O Energy of x, after shifting to the right */
- opus_int *shift, /* O Number of bits right shift applied to energy */
- const opus_int16 *x, /* I Input vector */
- opus_int len /* I Length of input vector */
+ opus_int32 *energy, /* O Energy of x, after shifting to the right */
+ opus_int *shift, /* O Number of bits right shift applied to energy */
+ const opus_int16 *x, /* I Input vector */
+ opus_int len /* I Length of input vector */
)
{
opus_int i, shft;
diff --git a/silk/tables.h b/silk/tables.h
index 1b8b68f..813fadd 100644
--- a/silk/tables.h
+++ b/silk/tables.h
@@ -36,82 +36,82 @@
{
#endif
-/* entropy coding tables */
-extern const opus_uint8 silk_gain_iCDF[ 3 ][ N_LEVELS_QGAIN / 8 ]; /* 24 */
-extern const opus_uint8 silk_delta_gain_iCDF[ MAX_DELTA_GAIN_QUANT - MIN_DELTA_GAIN_QUANT + 1 ]; /* 41 */
+/* Entropy coding tables (with size in bytes indicated) */
+extern const opus_uint8 silk_gain_iCDF[ 3 ][ N_LEVELS_QGAIN / 8 ]; /* 24 */
+extern const opus_uint8 silk_delta_gain_iCDF[ MAX_DELTA_GAIN_QUANT - MIN_DELTA_GAIN_QUANT + 1 ]; /* 41 */
-extern const opus_uint8 silk_pitch_lag_iCDF[ 2 * ( PITCH_EST_MAX_LAG_MS - PITCH_EST_MIN_LAG_MS ) ]; /* 32 */
-extern const opus_uint8 silk_pitch_delta_iCDF[ 21 ]; /* 21 */
-extern const opus_uint8 silk_pitch_contour_iCDF[ 34 ]; /* 34 */
-extern const opus_uint8 silk_pitch_contour_NB_iCDF[ 11 ]; /* 11 */
-extern const opus_uint8 silk_pitch_contour_10_ms_iCDF[ 12 ]; /* 12 */
-extern const opus_uint8 silk_pitch_contour_10_ms_NB_iCDF[ 3 ]; /* 3 */
+extern const opus_uint8 silk_pitch_lag_iCDF[ 2 * ( PITCH_EST_MAX_LAG_MS - PITCH_EST_MIN_LAG_MS ) ];/* 32 */
+extern const opus_uint8 silk_pitch_delta_iCDF[ 21 ]; /* 21 */
+extern const opus_uint8 silk_pitch_contour_iCDF[ 34 ]; /* 34 */
+extern const opus_uint8 silk_pitch_contour_NB_iCDF[ 11 ]; /* 11 */
+extern const opus_uint8 silk_pitch_contour_10_ms_iCDF[ 12 ]; /* 12 */
+extern const opus_uint8 silk_pitch_contour_10_ms_NB_iCDF[ 3 ]; /* 3 */
-extern const opus_uint8 silk_pulses_per_block_iCDF[ N_RATE_LEVELS ][ MAX_PULSES + 2 ]; /* 180 */
-extern const opus_uint8 silk_pulses_per_block_BITS_Q5[ N_RATE_LEVELS - 1 ][ MAX_PULSES + 2 ]; /* 162 */
+extern const opus_uint8 silk_pulses_per_block_iCDF[ N_RATE_LEVELS ][ MAX_PULSES + 2 ]; /* 180 */
+extern const opus_uint8 silk_pulses_per_block_BITS_Q5[ N_RATE_LEVELS - 1 ][ MAX_PULSES + 2 ]; /* 162 */
-extern const opus_uint8 silk_rate_levels_iCDF[ 2 ][ N_RATE_LEVELS - 1 ]; /* 18 */
-extern const opus_uint8 silk_rate_levels_BITS_Q5[ 2 ][ N_RATE_LEVELS - 1 ]; /* 18 */
+extern const opus_uint8 silk_rate_levels_iCDF[ 2 ][ N_RATE_LEVELS - 1 ]; /* 18 */
+extern const opus_uint8 silk_rate_levels_BITS_Q5[ 2 ][ N_RATE_LEVELS - 1 ]; /* 18 */
-extern const opus_uint8 silk_max_pulses_table[ 4 ]; /* 4 */
+extern const opus_uint8 silk_max_pulses_table[ 4 ]; /* 4 */
-extern const opus_uint8 silk_shell_code_table0[ 152 ]; /* 152 */
-extern const opus_uint8 silk_shell_code_table1[ 152 ]; /* 152 */
-extern const opus_uint8 silk_shell_code_table2[ 152 ]; /* 152 */
-extern const opus_uint8 silk_shell_code_table3[ 152 ]; /* 152 */
-extern const opus_uint8 silk_shell_code_table_offsets[ MAX_PULSES + 1 ]; /* 17 */
+extern const opus_uint8 silk_shell_code_table0[ 152 ]; /* 152 */
+extern const opus_uint8 silk_shell_code_table1[ 152 ]; /* 152 */
+extern const opus_uint8 silk_shell_code_table2[ 152 ]; /* 152 */
+extern const opus_uint8 silk_shell_code_table3[ 152 ]; /* 152 */
+extern const opus_uint8 silk_shell_code_table_offsets[ MAX_PULSES + 1 ]; /* 17 */
-extern const opus_uint8 silk_lsb_iCDF[ 2 ]; /* 2 */
+extern const opus_uint8 silk_lsb_iCDF[ 2 ]; /* 2 */
-extern const opus_uint8 silk_sign_iCDF[ 42 ]; /* 42 */
+extern const opus_uint8 silk_sign_iCDF[ 42 ]; /* 42 */
-extern const opus_uint8 silk_uniform3_iCDF[ 3 ]; /* 3 */
-extern const opus_uint8 silk_uniform4_iCDF[ 4 ]; /* 4 */
-extern const opus_uint8 silk_uniform5_iCDF[ 5 ]; /* 5 */
-extern const opus_uint8 silk_uniform6_iCDF[ 6 ]; /* 6 */
-extern const opus_uint8 silk_uniform8_iCDF[ 8 ]; /* 8 */
+extern const opus_uint8 silk_uniform3_iCDF[ 3 ]; /* 3 */
+extern const opus_uint8 silk_uniform4_iCDF[ 4 ]; /* 4 */
+extern const opus_uint8 silk_uniform5_iCDF[ 5 ]; /* 5 */
+extern const opus_uint8 silk_uniform6_iCDF[ 6 ]; /* 6 */
+extern const opus_uint8 silk_uniform8_iCDF[ 8 ]; /* 8 */
-extern const opus_uint8 silk_NLSF_EXT_iCDF[ 7 ]; /* 7 */
+extern const opus_uint8 silk_NLSF_EXT_iCDF[ 7 ]; /* 7 */
-extern const opus_uint8 silk_LTP_per_index_iCDF[ 3 ]; /* 3 */
-extern const opus_uint8 * const silk_LTP_gain_iCDF_ptrs[ NB_LTP_CBKS ]; /* 3 */
-extern const opus_uint8 * const silk_LTP_gain_BITS_Q5_ptrs[ NB_LTP_CBKS ]; /* 3 */
+extern const opus_uint8 silk_LTP_per_index_iCDF[ 3 ]; /* 3 */
+extern const opus_uint8 * const silk_LTP_gain_iCDF_ptrs[ NB_LTP_CBKS ]; /* 3 */
+extern const opus_uint8 * const silk_LTP_gain_BITS_Q5_ptrs[ NB_LTP_CBKS ]; /* 3 */
extern const opus_int16 silk_LTP_gain_middle_avg_RD_Q14;
-extern const opus_int8 * const silk_LTP_vq_ptrs_Q7[ NB_LTP_CBKS ]; /* 168 */
-extern const opus_int8 silk_LTP_vq_sizes[ NB_LTP_CBKS ]; /* 3 */
+extern const opus_int8 * const silk_LTP_vq_ptrs_Q7[ NB_LTP_CBKS ]; /* 168 */
+extern const opus_int8 silk_LTP_vq_sizes[ NB_LTP_CBKS ]; /* 3 */
-extern const opus_uint8 silk_LTPscale_iCDF[ 3 ]; /* 4 */
-extern const opus_int16 silk_LTPScales_table_Q14[ 3 ];
+extern const opus_uint8 silk_LTPscale_iCDF[ 3 ]; /* 4 */
+extern const opus_int16 silk_LTPScales_table_Q14[ 3 ]; /* 6 */
-extern const opus_uint8 silk_type_offset_VAD_iCDF[ 4 ]; /* 4 */
-extern const opus_uint8 silk_type_offset_no_VAD_iCDF[ 2 ]; /* 2 */
+extern const opus_uint8 silk_type_offset_VAD_iCDF[ 4 ]; /* 4 */
+extern const opus_uint8 silk_type_offset_no_VAD_iCDF[ 2 ]; /* 2 */
-extern const opus_int16 silk_stereo_pred_quant_Q13[ STEREO_QUANT_TAB_SIZE ]; /* 32 */
-extern const opus_uint8 silk_stereo_pred_joint_iCDF[ 25 ]; /* 25 */
-extern const opus_uint8 silk_stereo_only_code_mid_iCDF[ 2 ]; /* 2 */
+extern const opus_int16 silk_stereo_pred_quant_Q13[ STEREO_QUANT_TAB_SIZE ]; /* 32 */
+extern const opus_uint8 silk_stereo_pred_joint_iCDF[ 25 ]; /* 25 */
+extern const opus_uint8 silk_stereo_only_code_mid_iCDF[ 2 ]; /* 2 */
-extern const opus_uint8 * const silk_LBRR_flags_iCDF_ptr[ 2 ]; /* 10 */
+extern const opus_uint8 * const silk_LBRR_flags_iCDF_ptr[ 2 ]; /* 10 */
-extern const opus_uint8 silk_NLSF_interpolation_factor_iCDF[ 5 ]; /* 5 */
+extern const opus_uint8 silk_NLSF_interpolation_factor_iCDF[ 5 ]; /* 5 */
-extern const silk_NLSF_CB_struct silk_NLSF_CB_WB;
-extern const silk_NLSF_CB_struct silk_NLSF_CB_NB_MB;
+extern const silk_NLSF_CB_struct silk_NLSF_CB_WB; /* 1040 */
+extern const silk_NLSF_CB_struct silk_NLSF_CB_NB_MB; /* 728 */
/* Piece-wise linear mapping from bitrate in kbps to coding quality in dB SNR */
-extern const opus_int32 silk_TargetRate_table_NB[ TARGET_RATE_TAB_SZ ];
-extern const opus_int32 silk_TargetRate_table_MB[ TARGET_RATE_TAB_SZ ];
-extern const opus_int32 silk_TargetRate_table_WB[ TARGET_RATE_TAB_SZ ];
-extern const opus_int16 silk_SNR_table_Q1[ TARGET_RATE_TAB_SZ ];
+extern const opus_int32 silk_TargetRate_table_NB[ TARGET_RATE_TAB_SZ ]; /* 32 */
+extern const opus_int32 silk_TargetRate_table_MB[ TARGET_RATE_TAB_SZ ]; /* 32 */
+extern const opus_int32 silk_TargetRate_table_WB[ TARGET_RATE_TAB_SZ ]; /* 32 */
+extern const opus_int16 silk_SNR_table_Q1[ TARGET_RATE_TAB_SZ ]; /* 32 */
/* Quantization offsets */
-extern const opus_int16 silk_Quantization_Offsets_Q10[ 2 ][ 2 ];
+extern const opus_int16 silk_Quantization_Offsets_Q10[ 2 ][ 2 ]; /* 8 */
/* Interpolation points for filter coefficients used in the bandwidth transition smoother */
-extern const opus_int32 silk_Transition_LP_B_Q28[ TRANSITION_INT_NUM ][ TRANSITION_NB ];
-extern const opus_int32 silk_Transition_LP_A_Q28[ TRANSITION_INT_NUM ][ TRANSITION_NA ];
+extern const opus_int32 silk_Transition_LP_B_Q28[ TRANSITION_INT_NUM ][ TRANSITION_NB ]; /* 60 */
+extern const opus_int32 silk_Transition_LP_A_Q28[ TRANSITION_INT_NUM ][ TRANSITION_NA ]; /* 60 */
/* Rom table with cosine values */
-extern const opus_int16 silk_LSFCosTab_FIX_Q12[ LSF_COS_TAB_SZ_FIX + 1 ];
+extern const opus_int16 silk_LSFCosTab_FIX_Q12[ LSF_COS_TAB_SZ_FIX + 1 ]; /* 258 */
#ifdef __cplusplus
}
diff --git a/src/opus.vcxproj b/src/opus.vcxproj
index 9183787..4e1d4dd 100644
--- a/src/opus.vcxproj
+++ b/src/opus.vcxproj
@@ -1,106 +1,106 @@
-<?xml version="1.0" encoding="utf-8"?>
-<Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
- <ItemGroup Label="ProjectConfigurations">
- <ProjectConfiguration Include="Debug|Win32">
- <Configuration>Debug</Configuration>
- <Platform>Win32</Platform>
- </ProjectConfiguration>
- <ProjectConfiguration Include="Release|Win32">
- <Configuration>Release</Configuration>
- <Platform>Win32</Platform>
- </ProjectConfiguration>
- </ItemGroup>
- <PropertyGroup Label="Globals">
- <Keyword>Win32Proj</Keyword>
- <ProjectName>opus</ProjectName>
- <ProjectGuid>{219EC965-228A-1824-174D-96449D05F88A}</ProjectGuid>
- </PropertyGroup>
- <Import Project="$(VCTargetsPath)\Microsoft.Cpp.Default.props" />
- <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'" Label="Configuration">
- <ConfigurationType>Application</ConfigurationType>
- <UseDebugLibraries>true</UseDebugLibraries>
- </PropertyGroup>
- <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'" Label="Configuration">
- <ConfigurationType>Application</ConfigurationType>
- <UseDebugLibraries>false</UseDebugLibraries>
- </PropertyGroup>
- <Import Project="$(VCTargetsPath)\Microsoft.Cpp.props" />
- <ImportGroup Label="ExtensionSettings">
- </ImportGroup>
- <ImportGroup Label="PropertySheets" Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
- <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')" Label="LocalAppDataPlatform" />
- </ImportGroup>
- <ImportGroup Label="PropertySheets" Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">
- <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')" Label="LocalAppDataPlatform" />
- </ImportGroup>
- <PropertyGroup Label="UserMacros" />
- <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
- <LinkIncremental>true</LinkIncremental>
- <TargetName>$(ProjectName)_debug</TargetName>
- <OutDir>$(SolutionDir)\bin\</OutDir>
- </PropertyGroup>
- <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">
- <LinkIncremental>false</LinkIncremental>
- <OutDir>$(SolutionDir)\bin\</OutDir>
- </PropertyGroup>
- <ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
- <ClCompile>
- <PreprocessorDefinitions>HAVE_CONFIG_H;WIN32;_DEBUG;_CONSOLE;%(PreprocessorDefinitions)</PreprocessorDefinitions>
- <AdditionalIncludeDirectories>../silk;../celt;../win32;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
- <RuntimeLibrary>MultiThreadedDebugDLL</RuntimeLibrary>
- <WarningLevel>Level3</WarningLevel>
- <DebugInformationFormat>ProgramDatabase</DebugInformationFormat>
- <Optimization>Disabled</Optimization>
- </ClCompile>
- <Link>
- <TargetMachine>MachineX86</TargetMachine>
- <GenerateDebugInformation>true</GenerateDebugInformation>
- <SubSystem>Console</SubSystem>
- <AdditionalLibraryDirectories>$(SolutionDir)$(Configuration);%(AdditionalLibraryDirectories)</AdditionalLibraryDirectories>
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- <ClCompile>
- <PreprocessorDefinitions>HAVE_CONFIG_H;WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions)</PreprocessorDefinitions>
- <AdditionalIncludeDirectories>../silk;../celt;../win32;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
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- <Link>
- <TargetMachine>MachineX86</TargetMachine>
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- <SubSystem>Console</SubSystem>
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- <ItemGroup>
- <ClCompile Include="opus.c" />
- <ClCompile Include="opus_decoder.c" />
- <ClCompile Include="opus_encoder.c" />
- <ClCompile Include="repacketizer.c" />
- <ClCompile Include="test_opus.c" />
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- <ItemGroup>
- <ClInclude Include="..\celt\arch.h" />
- <ClInclude Include="..\celt\celt.h" />
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- <ClInclude Include="..\celt\opus_defines.h" />
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- <ClInclude Include="opus.h" />
- <ClInclude Include="opus_private.h" />
- </ItemGroup>
- <Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" />
- <ImportGroup Label="ExtensionTargets">
- </ImportGroup>
+<?xml version="1.0" encoding="utf-8"?>
+<Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
+ <ItemGroup Label="ProjectConfigurations">
+ <ProjectConfiguration Include="Debug|Win32">
+ <Configuration>Debug</Configuration>
+ <Platform>Win32</Platform>
+ </ProjectConfiguration>
+ <ProjectConfiguration Include="Release|Win32">
+ <Configuration>Release</Configuration>
+ <Platform>Win32</Platform>
+ </ProjectConfiguration>
+ </ItemGroup>
+ <PropertyGroup Label="Globals">
+ <Keyword>Win32Proj</Keyword>
+ <ProjectName>opus</ProjectName>
+ <ProjectGuid>{219EC965-228A-1824-174D-96449D05F88A}</ProjectGuid>
+ </PropertyGroup>
+ <Import Project="$(VCTargetsPath)\Microsoft.Cpp.Default.props" />
+ <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'" Label="Configuration">
+ <ConfigurationType>Application</ConfigurationType>
+ <UseDebugLibraries>true</UseDebugLibraries>
+ </PropertyGroup>
+ <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'" Label="Configuration">
+ <ConfigurationType>Application</ConfigurationType>
+ <UseDebugLibraries>false</UseDebugLibraries>
+ </PropertyGroup>
+ <Import Project="$(VCTargetsPath)\Microsoft.Cpp.props" />
+ <ImportGroup Label="ExtensionSettings">
+ </ImportGroup>
+ <ImportGroup Label="PropertySheets" Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
+ <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')" Label="LocalAppDataPlatform" />
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+ <ImportGroup Label="PropertySheets" Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">
+ <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')" Label="LocalAppDataPlatform" />
+ </ImportGroup>
+ <PropertyGroup Label="UserMacros" />
+ <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
+ <LinkIncremental>true</LinkIncremental>
+ <TargetName>$(ProjectName)_debug</TargetName>
+ <OutDir>$(SolutionDir)\bin\</OutDir>
+ </PropertyGroup>
+ <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">
+ <LinkIncremental>false</LinkIncremental>
+ <OutDir>$(SolutionDir)\bin\</OutDir>
+ </PropertyGroup>
+ <ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
+ <ClCompile>
+ <PreprocessorDefinitions>HAVE_CONFIG_H;WIN32;_DEBUG;_CONSOLE;%(PreprocessorDefinitions)</PreprocessorDefinitions>
+ <AdditionalIncludeDirectories>../silk;../celt;../win32;../include;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
+ <RuntimeLibrary>MultiThreadedDebugDLL</RuntimeLibrary>
+ <WarningLevel>Level3</WarningLevel>
+ <DebugInformationFormat>ProgramDatabase</DebugInformationFormat>
+ <Optimization>Disabled</Optimization>
+ </ClCompile>
+ <Link>
+ <TargetMachine>MachineX86</TargetMachine>
+ <GenerateDebugInformation>true</GenerateDebugInformation>
+ <SubSystem>Console</SubSystem>
+ <AdditionalLibraryDirectories>$(SolutionDir)$(Configuration);%(AdditionalLibraryDirectories)</AdditionalLibraryDirectories>
+ <AdditionalDependencies>celt.lib;silk_common.lib;silk_fixed.lib;silk_float.lib;kernel32.lib;user32.lib;gdi32.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies)</AdditionalDependencies>
+ </Link>
+ </ItemDefinitionGroup>
+ <ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">
+ <ClCompile>
+ <PreprocessorDefinitions>HAVE_CONFIG_H;WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions)</PreprocessorDefinitions>
+ <AdditionalIncludeDirectories>../silk;../celt;../win32;../include;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
+ <RuntimeLibrary>MultiThreadedDLL</RuntimeLibrary>
+ <WarningLevel>Level3</WarningLevel>
+ <DebugInformationFormat>ProgramDatabase</DebugInformationFormat>
+ </ClCompile>
+ <Link>
+ <TargetMachine>MachineX86</TargetMachine>
+ <GenerateDebugInformation>false</GenerateDebugInformation>
+ <SubSystem>Console</SubSystem>
+ <EnableCOMDATFolding>true</EnableCOMDATFolding>
+ <OptimizeReferences>true</OptimizeReferences>
+ <AdditionalDependencies>celt.lib;silk_common.lib;silk_fixed.lib;silk_float.lib;kernel32.lib;user32.lib;gdi32.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies)</AdditionalDependencies>
+ <AdditionalLibraryDirectories>$(SolutionDir)$(Configuration);%(AdditionalLibraryDirectories)</AdditionalLibraryDirectories>
+ <LinkStatus>false</LinkStatus>
+ </Link>
+ </ItemDefinitionGroup>
+ <ItemGroup>
+ <ClCompile Include="opus.c" />
+ <ClCompile Include="opus_decoder.c" />
+ <ClCompile Include="opus_demo.c" />
+ <ClCompile Include="opus_encoder.c" />
+ <ClCompile Include="repacketizer.c" />
+ </ItemGroup>
+ <ItemGroup>
+ <ClInclude Include="..\celt\arch.h" />
+ <ClInclude Include="..\celt\celt.h" />
+ <ClInclude Include="..\celt\entdec.h" />
+ <ClInclude Include="..\celt\entenc.h" />
+ <ClInclude Include="..\celt\float_cast.h" />
+ <ClInclude Include="..\celt\os_support.h" />
+ <ClInclude Include="..\celt\stack_alloc.h" />
+ <ClInclude Include="..\include\opus.h" />
+ <ClInclude Include="..\include\opus_defines.h" />
+ <ClInclude Include="..\include\opus_types.h" />
+ <ClInclude Include="..\win32\config.h" />
+ <ClInclude Include="opus_private.h" />
+ </ItemGroup>
+ <Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" />
+ <ImportGroup Label="ExtensionTargets">
+ </ImportGroup>
</Project>
\ No newline at end of file
diff --git a/src/opus.vcxproj.filters b/src/opus.vcxproj.filters
index 18b67f0..11dac61 100644
--- a/src/opus.vcxproj.filters
+++ b/src/opus.vcxproj.filters
@@ -1,72 +1,72 @@
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- <Filter Include="Header Files">
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- <Filter Include="Resource Files">
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- <ItemGroup>
- <ClCompile Include="opus_decoder.c">
- <Filter>Source Files</Filter>
- </ClCompile>
- <ClCompile Include="opus_encoder.c">
- <Filter>Source Files</Filter>
- </ClCompile>
- <ClCompile Include="test_opus.c">
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- <ClCompile Include="opus.c">
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- </ClCompile>
- <ClCompile Include="repacketizer.c">
- <Filter>Source Files</Filter>
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- <ItemGroup>
- <ClInclude Include="opus.h">
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- <ClInclude Include="..\win32\config.h">
- <Filter>Header Files</Filter>
- </ClInclude>
- <ClInclude Include="opus_private.h">
- <Filter>Header Files</Filter>
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- <ClInclude Include="..\celt\arch.h">
- <Filter>Header Files</Filter>
- </ClInclude>
- <ClInclude Include="..\celt\celt.h">
- <Filter>Header Files</Filter>
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- <ClInclude Include="..\celt\entdec.h">
- <Filter>Header Files</Filter>
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- <ClInclude Include="..\celt\entenc.h">
- <Filter>Header Files</Filter>
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- <ClInclude Include="..\celt\float_cast.h">
- <Filter>Header Files</Filter>
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- <ClInclude Include="..\celt\os_support.h">
- <Filter>Header Files</Filter>
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- <ClInclude Include="..\celt\stack_alloc.h">
- <Filter>Header Files</Filter>
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- <ClInclude Include="..\celt\opus_defines.h">
- <Filter>Header Files</Filter>
- </ClInclude>
- <ClInclude Include="..\celt\opus_types.h">
- <Filter>Header Files</Filter>
- </ClInclude>
- </ItemGroup>
+<?xml version="1.0" encoding="utf-8"?>
+<Project ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
+ <ItemGroup>
+ <Filter Include="Source Files">
+ <UniqueIdentifier>{4FC737F1-C7A5-4376-A066-2A32D752A2FF}</UniqueIdentifier>
+ <Extensions>cpp;c;cc;cxx;def;odl;idl;hpj;bat;asm;asmx</Extensions>
+ </Filter>
+ <Filter Include="Header Files">
+ <UniqueIdentifier>{93995380-89BD-4b04-88EB-625FBE52EBFB}</UniqueIdentifier>
+ <Extensions>h;hpp;hxx;hm;inl;inc;xsd</Extensions>
+ </Filter>
+ <Filter Include="Resource Files">
+ <UniqueIdentifier>{67DA6AB6-F800-4c08-8B7A-83BB121AAD01}</UniqueIdentifier>
+ <Extensions>rc;ico;cur;bmp;dlg;rc2;rct;bin;rgs;gif;jpg;jpeg;jpe;resx;tiff;tif;png;wav</Extensions>
+ </Filter>
+ </ItemGroup>
+ <ItemGroup>
+ <ClCompile Include="opus_decoder.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="opus_encoder.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="opus.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="repacketizer.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ <ClCompile Include="opus_demo.c">
+ <Filter>Source Files</Filter>
+ </ClCompile>
+ </ItemGroup>
+ <ItemGroup>
+ <ClInclude Include="..\win32\config.h">
+ <Filter>Header Files</Filter>
+ </ClInclude>
+ <ClInclude Include="opus_private.h">
+ <Filter>Header Files</Filter>
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+ <ClInclude Include="..\celt\arch.h">
+ <Filter>Header Files</Filter>
+ </ClInclude>
+ <ClInclude Include="..\celt\celt.h">
+ <Filter>Header Files</Filter>
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+ <ClInclude Include="..\celt\entdec.h">
+ <Filter>Header Files</Filter>
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+ <ClInclude Include="..\celt\entenc.h">
+ <Filter>Header Files</Filter>
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+ <ClInclude Include="..\celt\float_cast.h">
+ <Filter>Header Files</Filter>
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+ <ClInclude Include="..\celt\os_support.h">
+ <Filter>Header Files</Filter>
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+ <Filter>Header Files</Filter>
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+ <ClInclude Include="..\include\opus.h">
+ <Filter>Header Files</Filter>
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+ <ClInclude Include="..\include\opus_types.h">
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\ No newline at end of file