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| ***********************************************************************/ |
| |
| #ifdef HAVE_CONFIG_H |
| #include "config.h" |
| #endif |
| |
| /********************************************************************** |
| * Correlation Matrix Computations for LS estimate. |
| **********************************************************************/ |
| |
| #include "main_FIX.h" |
| |
| /* 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 */ |
| int arch /* I Run-time architecture */ |
| ) |
| { |
| opus_int lag, i; |
| const opus_int16 *ptr1, *ptr2; |
| opus_int32 inner_prod; |
| |
| ptr1 = &x[ order - 1 ]; /* Points to first sample of column 0 of X: X[:,0] */ |
| ptr2 = t; |
| /* Calculate X'*t */ |
| if( rshifts > 0 ) { |
| /* Right shifting used */ |
| for( lag = 0; lag < order; lag++ ) { |
| inner_prod = 0; |
| for( i = 0; i < L; i++ ) { |
| inner_prod += silk_RSHIFT32( silk_SMULBB( ptr1[ i ], ptr2[i] ), rshifts ); |
| } |
| Xt[ lag ] = inner_prod; /* X[:,lag]'*t */ |
| ptr1--; /* Go to next column of X */ |
| } |
| } else { |
| silk_assert( rshifts == 0 ); |
| for( lag = 0; lag < order; lag++ ) { |
| Xt[ lag ] = silk_inner_prod_aligned( ptr1, ptr2, L, arch ); /* X[:,lag]'*t */ |
| ptr1--; /* Go to next column of X */ |
| } |
| } |
| } |
| |
| /* 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 */ |
| int arch /* I Run-time architecture */ |
| ) |
| { |
| opus_int i, j, lag, rshifts_local, head_room_rshifts; |
| opus_int32 energy; |
| const opus_int16 *ptr1, *ptr2; |
| |
| /* Calculate energy to find shift used to fit in 32 bits */ |
| silk_sum_sqr_shift( &energy, &rshifts_local, x, L + order - 1 ); |
| /* Add shifts to get the desired head room */ |
| head_room_rshifts = silk_max( head_room - silk_CLZ32( energy ), 0 ); |
| |
| energy = silk_RSHIFT32( energy, head_room_rshifts ); |
| rshifts_local += head_room_rshifts; |
| |
| /* Calculate energy of first column (0) of X: X[:,0]'*X[:,0] */ |
| /* Remove contribution of first order - 1 samples */ |
| for( i = 0; i < order - 1; i++ ) { |
| energy -= silk_RSHIFT32( silk_SMULBB( x[ i ], x[ i ] ), rshifts_local ); |
| } |
| if( rshifts_local < *rshifts ) { |
| /* Adjust energy */ |
| energy = silk_RSHIFT32( energy, *rshifts - rshifts_local ); |
| rshifts_local = *rshifts; |
| } |
| |
| /* Calculate energy of remaining columns of X: X[:,j]'*X[:,j] */ |
| /* Fill out the diagonal of the correlation matrix */ |
| matrix_ptr( XX, 0, 0, order ) = energy; |
| ptr1 = &x[ order - 1 ]; /* First sample of column 0 of X */ |
| for( j = 1; j < order; j++ ) { |
| energy = silk_SUB32( energy, silk_RSHIFT32( silk_SMULBB( ptr1[ L - j ], ptr1[ L - j ] ), rshifts_local ) ); |
| energy = silk_ADD32( energy, silk_RSHIFT32( silk_SMULBB( ptr1[ -j ], ptr1[ -j ] ), rshifts_local ) ); |
| matrix_ptr( XX, j, j, order ) = energy; |
| } |
| |
| ptr2 = &x[ order - 2 ]; /* First sample of column 1 of X */ |
| /* Calculate the remaining elements of the correlation matrix */ |
| if( rshifts_local > 0 ) { |
| /* Right shifting used */ |
| for( lag = 1; lag < order; lag++ ) { |
| /* Inner product of column 0 and column lag: X[:,0]'*X[:,lag] */ |
| energy = 0; |
| for( i = 0; i < L; i++ ) { |
| energy += silk_RSHIFT32( silk_SMULBB( ptr1[ i ], ptr2[i] ), rshifts_local ); |
| } |
| /* Calculate remaining off diagonal: X[:,j]'*X[:,j + lag] */ |
| matrix_ptr( XX, lag, 0, order ) = energy; |
| matrix_ptr( XX, 0, lag, order ) = energy; |
| for( j = 1; j < ( order - lag ); j++ ) { |
| energy = silk_SUB32( energy, silk_RSHIFT32( silk_SMULBB( ptr1[ L - j ], ptr2[ L - j ] ), rshifts_local ) ); |
| energy = silk_ADD32( energy, silk_RSHIFT32( silk_SMULBB( ptr1[ -j ], ptr2[ -j ] ), rshifts_local ) ); |
| matrix_ptr( XX, lag + j, j, order ) = energy; |
| matrix_ptr( XX, j, lag + j, order ) = energy; |
| } |
| ptr2--; /* Update pointer to first sample of next column (lag) in X */ |
| } |
| } else { |
| for( lag = 1; lag < order; lag++ ) { |
| /* Inner product of column 0 and column lag: X[:,0]'*X[:,lag] */ |
| energy = silk_inner_prod_aligned( ptr1, ptr2, L, arch ); |
| matrix_ptr( XX, lag, 0, order ) = energy; |
| matrix_ptr( XX, 0, lag, order ) = energy; |
| /* Calculate remaining off diagonal: X[:,j]'*X[:,j + lag] */ |
| for( j = 1; j < ( order - lag ); j++ ) { |
| energy = silk_SUB32( energy, silk_SMULBB( ptr1[ L - j ], ptr2[ L - j ] ) ); |
| energy = silk_SMLABB( energy, ptr1[ -j ], ptr2[ -j ] ); |
| matrix_ptr( XX, lag + j, j, order ) = energy; |
| matrix_ptr( XX, j, lag + j, order ) = energy; |
| } |
| ptr2--;/* Update pointer to first sample of next column (lag) in X */ |
| } |
| } |
| *rshifts = rshifts_local; |
| } |
| |