|
libflame
revision_anchor
|
Functions | |
| FLA_Error | FLA_Bidiag_UT_realify (FLA_Obj A, FLA_Obj d, FLA_Obj e) |
| FLA_Error | FLA_Bidiag_UT_l_realify_unb (FLA_Obj A, FLA_Obj d, FLA_Obj e) |
| FLA_Error | FLA_Bidiag_UT_l_realify_opt (FLA_Obj A, FLA_Obj d, FLA_Obj e) |
| FLA_Error | FLA_Bidiag_UT_u_realify_unb (FLA_Obj A, FLA_Obj d, FLA_Obj e) |
| FLA_Error | FLA_Bidiag_UT_u_realify_opt (FLA_Obj A, FLA_Obj d, FLA_Obj e) |
| FLA_Error FLA_Bidiag_UT_l_realify_opt | ( | FLA_Obj | A, |
| FLA_Obj | d, | ||
| FLA_Obj | e | ||
| ) |
References bli_dsetv(), bli_ssetv(), BLIS_CONJUGATE, FLA_Obj_col_stride(), FLA_Obj_datatype(), FLA_Obj_length(), FLA_Obj_min_dim(), FLA_Obj_row_stride(), FLA_Obj_vector_inc(), FLA_Obj_width(), FLA_ONE, FLA_ZERO, scomplex::imag, and dcomplex::imag.
Referenced by FLA_Bidiag_UT_realify().
{
FLA_Datatype datatype;
int m_A, n_A;
int min_m_n;
int rs_A, cs_A;
int inc_d;
int inc_e;
int i;
datatype = FLA_Obj_datatype( A );
m_A = FLA_Obj_length( A );
n_A = FLA_Obj_width( A );
min_m_n = FLA_Obj_min_dim( A );
rs_A = FLA_Obj_row_stride( A );
cs_A = FLA_Obj_col_stride( A );
inc_d = FLA_Obj_vector_inc( d );
inc_e = FLA_Obj_vector_inc( e );
switch ( datatype )
{
case FLA_FLOAT:
{
float* buff_d = FLA_FLOAT_PTR( d );
float* buff_e = FLA_FLOAT_PTR( e );
float* buff_1 = FLA_FLOAT_PTR( FLA_ONE );
bli_ssetv( min_m_n,
buff_1,
buff_d, inc_d );
bli_ssetv( min_m_n,
buff_1,
buff_e, inc_e );
break;
}
case FLA_DOUBLE:
{
double* buff_d = FLA_DOUBLE_PTR( d );
double* buff_e = FLA_DOUBLE_PTR( e );
double* buff_1 = FLA_DOUBLE_PTR( FLA_ONE );
bli_dsetv( min_m_n,
buff_1,
buff_d, inc_d );
bli_dsetv( min_m_n,
buff_1,
buff_e, inc_e );
break;
}
case FLA_COMPLEX:
{
scomplex* buff_A = FLA_COMPLEX_PTR( A );
scomplex* buff_d = FLA_COMPLEX_PTR( d );
scomplex* buff_e = FLA_COMPLEX_PTR( e );
scomplex* buff_1 = FLA_COMPLEX_PTR( FLA_ONE );
float* buff_0 = FLA_FLOAT_PTR( FLA_ZERO );
for ( i = 0; i < min_m_n; ++i )
{
scomplex* a10t_r = buff_A + (i-1)*cs_A + (i )*rs_A;
scomplex* alpha11 = buff_A + (i )*cs_A + (i )*rs_A;
scomplex* a21_t = buff_A + (i )*cs_A + (i+1)*rs_A;
scomplex* delta1 = buff_d + (i )*inc_d;
scomplex* epsilon1 = buff_e + (i )*inc_e;
scomplex absv;
int m_ahead = m_A - i - 1;
int m_behind = i;
if ( m_behind == 0 )
{
// FLA_Set( FLA_ONE, delta1 );
*delta1 = *buff_1;
}
else
{
// FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, a10t_r, delta1 );
// FLA_Copyt( FLA_NO_TRANSPOSE, a10t_r, absv );
// FLA_Absolute_value( absv );
// FLA_Inv_scal( absv, delta1 );
bli_ccopys( BLIS_CONJUGATE, a10t_r, delta1 );
bli_cabsval2( a10t_r, &absv );
bli_cinvscals( &absv, delta1 );
// FLA_Scalc( FLA_NO_CONJUGATE, delta1, a10t_r );
// FLA_Obj_set_imag_part( FLA_ZERO, a10t_r );
bli_cscals( delta1, a10t_r );
a10t_r->imag = *buff_0;
// FLA_Scalc( FLA_NO_CONJUGATE, delta1, alpha11 );
bli_cscals( delta1, alpha11 );
}
// FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, alpha11, epsilon1 );
// FLA_Copyt( FLA_NO_TRANSPOSE, alpha11, absv );
// FLA_Absolute_value( absv );
// FLA_Inv_scal( absv, epsilon1 );
bli_ccopys( BLIS_CONJUGATE, alpha11, epsilon1 );
bli_cabsval2( alpha11, &absv );
bli_cinvscals( &absv, epsilon1 );
// FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, alpha11 );
// FLA_Obj_set_imag_part( FLA_ZERO, alpha11 );
bli_cscals( epsilon1, alpha11 );
alpha11->imag = *buff_0;
if ( m_ahead > 0 )
{
// FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, a21_t );
bli_cscals( epsilon1, a21_t );
}
}
break;
}
case FLA_DOUBLE_COMPLEX:
{
dcomplex* buff_A = FLA_DOUBLE_COMPLEX_PTR( A );
dcomplex* buff_d = FLA_DOUBLE_COMPLEX_PTR( d );
dcomplex* buff_e = FLA_DOUBLE_COMPLEX_PTR( e );
dcomplex* buff_1 = FLA_DOUBLE_COMPLEX_PTR( FLA_ONE );
double* buff_0 = FLA_DOUBLE_PTR( FLA_ZERO );
for ( i = 0; i < min_m_n; ++i )
{
dcomplex* a10t_r = buff_A + (i-1)*cs_A + (i )*rs_A;
dcomplex* alpha11 = buff_A + (i )*cs_A + (i )*rs_A;
dcomplex* a21_t = buff_A + (i )*cs_A + (i+1)*rs_A;
dcomplex* delta1 = buff_d + (i )*inc_d;
dcomplex* epsilon1 = buff_e + (i )*inc_e;
dcomplex absv;
int m_ahead = m_A - i - 1;
int m_behind = i;
if ( m_behind == 0 )
{
// FLA_Set( FLA_ONE, delta1 );
*delta1 = *buff_1;
}
else
{
// FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, a10t_r, delta1 );
// FLA_Copyt( FLA_NO_TRANSPOSE, a10t_r, absv );
// FLA_Absolute_value( absv );
// FLA_Inv_scal( absv, delta1 );
bli_zcopys( BLIS_CONJUGATE, a10t_r, delta1 );
bli_zabsval2( a10t_r, &absv );
bli_zinvscals( &absv, delta1 );
// FLA_Scalc( FLA_NO_CONJUGATE, delta1, a10t_r );
// FLA_Obj_set_imag_part( FLA_ZERO, a10t_r );
bli_zscals( delta1, a10t_r );
a10t_r->imag = *buff_0;
// FLA_Scalc( FLA_NO_CONJUGATE, delta1, alpha11 );
bli_zscals( delta1, alpha11 );
}
// FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, alpha11, epsilon1 );
// FLA_Copyt( FLA_NO_TRANSPOSE, alpha11, absv );
// FLA_Absolute_value( absv );
// FLA_Inv_scal( absv, epsilon1 );
bli_zcopys( BLIS_CONJUGATE, alpha11, epsilon1 );
bli_zabsval2( alpha11, &absv );
bli_zinvscals( &absv, epsilon1 );
// FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, alpha11 );
// FLA_Obj_set_imag_part( FLA_ZERO, alpha11 );
bli_zscals( epsilon1, alpha11 );
alpha11->imag = *buff_0;
if ( m_ahead > 0 )
{
// FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, a21_t );
bli_zscals( epsilon1, a21_t );
}
}
break;
}
}
return FLA_SUCCESS;
}
| FLA_Error FLA_Bidiag_UT_l_realify_unb | ( | FLA_Obj | A, |
| FLA_Obj | d, | ||
| FLA_Obj | e | ||
| ) |
References FLA_Absolute_value(), FLA_Cont_with_3x1_to_2x1(), FLA_Cont_with_3x3_to_2x2(), FLA_Copyt(), FLA_Inv_scal(), FLA_Obj_create(), FLA_Obj_datatype(), FLA_Obj_free(), FLA_Obj_length(), FLA_Obj_min_dim(), FLA_Obj_set_imag_part(), FLA_Obj_width(), FLA_ONE, FLA_Part_1x2(), FLA_Part_2x1(), FLA_Part_2x2(), FLA_Repart_2x1_to_3x1(), FLA_Repart_2x2_to_3x3(), FLA_Scalc(), FLA_Set(), and FLA_ZERO.
{
FLA_Obj ATL, ATR, A00, a01, A02,
ABL, ABR, a10t, alpha11, a12t,
A20, a21, A22;
FLA_Obj dT, d0,
dB, delta1,
d2;
FLA_Obj eT, e0,
eB, epsilon1,
e2;
FLA_Obj a10t_l, a10t_r;
FLA_Obj a21_t,
a21_b;
FLA_Obj absv;
FLA_Obj_create( FLA_Obj_datatype( A ), 1, 1, 0, 0, &absv );
FLA_Part_2x2( A, &ATL, &ATR,
&ABL, &ABR, 0, 0, FLA_TL );
FLA_Part_2x1( d, &dT,
&dB, 0, FLA_TOP );
FLA_Part_2x1( e, &eT,
&eB, 0, FLA_TOP );
while ( FLA_Obj_min_dim( ABR ) > 0 )
{
FLA_Repart_2x2_to_3x3( ATL, /**/ ATR, &A00, /**/ &a01, &A02,
/* ************* */ /* ************************** */
&a10t, /**/ &alpha11, &a12t,
ABL, /**/ ABR, &A20, /**/ &a21, &A22,
1, 1, FLA_BR );
FLA_Repart_2x1_to_3x1( dT, &d0,
/* ** */ /* ****** */
&delta1,
dB, &d2, 1, FLA_BOTTOM );
FLA_Repart_2x1_to_3x1( eT, &e0,
/* ** */ /* ******** */
&epsilon1,
eB, &e2, 1, FLA_BOTTOM );
/*------------------------------------------------------------*/
if ( FLA_Obj_width( a10t ) == 0 )
{
// delta1 = 1;
FLA_Set( FLA_ONE, delta1 );
}
else
{
FLA_Part_1x2( a10t, &a10t_l, &a10t_r, 1, FLA_RIGHT );
// delta1 = conj(a10t_r) / abs(a10t_r);
FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, a10t_r, delta1 );
FLA_Copyt( FLA_NO_TRANSPOSE, a10t_r, absv );
FLA_Absolute_value( absv );
FLA_Inv_scal( absv, delta1 );
// a10t_r = delta1 * a10t_r;
// a10t_r.imag = 0;
FLA_Scalc( FLA_NO_CONJUGATE, delta1, a10t_r );
FLA_Obj_set_imag_part( FLA_ZERO, a10t_r );
// alpha11 = delta1 * alpha11;
FLA_Scalc( FLA_NO_CONJUGATE, delta1, alpha11 );
}
// epsilon1 = conj(alpha11) / abs(alpha11);
FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, alpha11, epsilon1 );
FLA_Copyt( FLA_NO_TRANSPOSE, alpha11, absv );
FLA_Absolute_value( absv );
FLA_Inv_scal( absv, epsilon1 );
// alpha11 = epsilon1 * alpha11;
// alpha11.imag = 0;
FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, alpha11 );
FLA_Obj_set_imag_part( FLA_ZERO, alpha11 );
if ( FLA_Obj_length( a21 ) > 0 )
{
FLA_Part_2x1( a21, &a21_t,
&a21_b, 1, FLA_TOP );
// a21_t = epsilon1 * a21_t;
FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, a21_t );
}
/*------------------------------------------------------------*/
FLA_Cont_with_3x3_to_2x2( &ATL, /**/ &ATR, A00, a01, /**/ A02,
a10t, alpha11, /**/ a12t,
/* ************** */ /* ************************ */
&ABL, /**/ &ABR, A20, a21, /**/ A22,
FLA_TL );
FLA_Cont_with_3x1_to_2x1( &dT, d0,
delta1,
/* ** */ /* ****** */
&dB, d2, FLA_TOP );
FLA_Cont_with_3x1_to_2x1( &eT, e0,
epsilon1,
/* ** */ /* ******** */
&eB, e2, FLA_TOP );
}
FLA_Obj_free( &absv );
return FLA_SUCCESS;
}
| FLA_Error FLA_Bidiag_UT_realify | ( | FLA_Obj | A, |
| FLA_Obj | d, | ||
| FLA_Obj | e | ||
| ) |
References FLA_Bidiag_UT_l_realify_opt(), FLA_Bidiag_UT_realify_check(), FLA_Bidiag_UT_u_realify_opt(), FLA_Check_error_level(), FLA_Obj_is_real(), FLA_Obj_length(), FLA_Obj_width(), FLA_ONE, and FLA_Set().
Referenced by FLA_Svd_uv_unb_var1(), and FLA_Svd_uv_unb_var2().
{
FLA_Error r_val = FLA_SUCCESS;
if ( FLA_Check_error_level() >= FLA_MIN_ERROR_CHECKING )
FLA_Bidiag_UT_realify_check( A, d, e );
if ( FLA_Obj_is_real( A ) )
{
FLA_Set( FLA_ONE, d );
FLA_Set( FLA_ONE, e );
return FLA_SUCCESS;
}
if ( FLA_Obj_length( A ) < FLA_Obj_width( A ) )
//r_val = FLA_Bidiag_UT_l_realify_unb( A, d, e );
r_val = FLA_Bidiag_UT_l_realify_opt( A, d, e );
else
//r_val = FLA_Bidiag_UT_u_realify_unb( A, d, e );
r_val = FLA_Bidiag_UT_u_realify_opt( A, d, e );
return r_val;
}
| FLA_Error FLA_Bidiag_UT_u_realify_opt | ( | FLA_Obj | A, |
| FLA_Obj | d, | ||
| FLA_Obj | e | ||
| ) |
References bli_dsetv(), bli_ssetv(), BLIS_CONJUGATE, FLA_Obj_col_stride(), FLA_Obj_datatype(), FLA_Obj_length(), FLA_Obj_min_dim(), FLA_Obj_row_stride(), FLA_Obj_vector_inc(), FLA_Obj_width(), FLA_ONE, FLA_ZERO, scomplex::imag, and dcomplex::imag.
Referenced by FLA_Bidiag_UT_realify().
{
FLA_Datatype datatype;
int m_A, n_A;
int min_m_n;
int rs_A, cs_A;
int inc_d;
int inc_e;
int i;
datatype = FLA_Obj_datatype( A );
m_A = FLA_Obj_length( A );
n_A = FLA_Obj_width( A );
min_m_n = FLA_Obj_min_dim( A );
rs_A = FLA_Obj_row_stride( A );
cs_A = FLA_Obj_col_stride( A );
inc_d = FLA_Obj_vector_inc( d );
inc_e = FLA_Obj_vector_inc( e );
switch ( datatype )
{
case FLA_FLOAT:
{
float* buff_d = FLA_FLOAT_PTR( d );
float* buff_e = FLA_FLOAT_PTR( e );
float* buff_1 = FLA_FLOAT_PTR( FLA_ONE );
bli_ssetv( min_m_n,
buff_1,
buff_d, inc_d );
bli_ssetv( min_m_n,
buff_1,
buff_e, inc_e );
break;
}
case FLA_DOUBLE:
{
double* buff_d = FLA_DOUBLE_PTR( d );
double* buff_e = FLA_DOUBLE_PTR( e );
double* buff_1 = FLA_DOUBLE_PTR( FLA_ONE );
bli_dsetv( min_m_n,
buff_1,
buff_d, inc_d );
bli_dsetv( min_m_n,
buff_1,
buff_e, inc_e );
break;
}
case FLA_COMPLEX:
{
scomplex* buff_A = FLA_COMPLEX_PTR( A );
scomplex* buff_d = FLA_COMPLEX_PTR( d );
scomplex* buff_e = FLA_COMPLEX_PTR( e );
scomplex* buff_1 = FLA_COMPLEX_PTR( FLA_ONE );
float* buff_0 = FLA_FLOAT_PTR( FLA_ZERO );
for ( i = 0; i < min_m_n; ++i )
{
scomplex* a01_b = buff_A + (i )*cs_A + (i-1)*rs_A;
scomplex* alpha11 = buff_A + (i )*cs_A + (i )*rs_A;
scomplex* a12t_l = buff_A + (i+1)*cs_A + (i )*rs_A;
scomplex* delta1 = buff_d + (i )*inc_d;
scomplex* epsilon1 = buff_e + (i )*inc_e;
scomplex absv;
int n_ahead = n_A - i - 1;
int n_behind = i;
if ( n_behind == 0 )
{
// FLA_Set( FLA_ONE, epsilon1 );
*epsilon1 = *buff_1;
}
else
{
// FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, a01_b, epsilon1 );
// FLA_Copyt( FLA_NO_TRANSPOSE, a01_b, absv );
// FLA_Absolute_value( absv );
// FLA_Inv_scal( absv, epsilon1 );
bli_ccopys( BLIS_CONJUGATE, a01_b, epsilon1 );
bli_cabsval2( a01_b, &absv );
bli_cinvscals( &absv, epsilon1 );
// FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, a01_b );
// FLA_Obj_set_imag_part( FLA_ZERO, a01_b );
bli_cscals( epsilon1, a01_b );
a01_b->imag = *buff_0;
// FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, alpha11 );
bli_cscals( epsilon1, alpha11 );
}
// FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, alpha11, delta1 );
// FLA_Copyt( FLA_NO_TRANSPOSE, alpha11, absv );
// FLA_Absolute_value( absv );
// FLA_Inv_scal( absv, delta1 );
bli_ccopys( BLIS_CONJUGATE, alpha11, delta1 );
bli_cabsval2( alpha11, &absv );
bli_cinvscals( &absv, delta1 );
// FLA_Scalc( FLA_NO_CONJUGATE, delta1, alpha11 );
// FLA_Obj_set_imag_part( FLA_ZERO, alpha11 );
bli_cscals( delta1, alpha11 );
alpha11->imag = *buff_0;
if ( n_ahead > 0 )
{
// FLA_Scalc( FLA_NO_CONJUGATE, delta1, a12t_l );
bli_cscals( delta1, a12t_l );
}
}
break;
}
case FLA_DOUBLE_COMPLEX:
{
dcomplex* buff_A = FLA_DOUBLE_COMPLEX_PTR( A );
dcomplex* buff_d = FLA_DOUBLE_COMPLEX_PTR( d );
dcomplex* buff_e = FLA_DOUBLE_COMPLEX_PTR( e );
dcomplex* buff_1 = FLA_DOUBLE_COMPLEX_PTR( FLA_ONE );
double* buff_0 = FLA_DOUBLE_PTR( FLA_ZERO );
for ( i = 0; i < min_m_n; ++i )
{
dcomplex* a01_b = buff_A + (i )*cs_A + (i-1)*rs_A;
dcomplex* alpha11 = buff_A + (i )*cs_A + (i )*rs_A;
dcomplex* a12t_l = buff_A + (i+1)*cs_A + (i )*rs_A;
dcomplex* delta1 = buff_d + (i )*inc_d;
dcomplex* epsilon1 = buff_e + (i )*inc_e;
dcomplex absv;
int n_ahead = n_A - i - 1;
int n_behind = i;
if ( n_behind == 0 )
{
// FLA_Set( FLA_ONE, epsilon1 );
*epsilon1 = *buff_1;
}
else
{
// FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, a01_b, epsilon1 );
// FLA_Copyt( FLA_NO_TRANSPOSE, a01_b, absv );
// FLA_Absolute_value( absv );
// FLA_Inv_scal( absv, epsilon1 );
bli_zcopys( BLIS_CONJUGATE, a01_b, epsilon1 );
bli_zabsval2( a01_b, &absv );
bli_zinvscals( &absv, epsilon1 );
// FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, a01_b );
// FLA_Obj_set_imag_part( FLA_ZERO, a01_b );
bli_zscals( epsilon1, a01_b );
a01_b->imag = *buff_0;
// FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, alpha11 );
bli_zscals( epsilon1, alpha11 );
}
// FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, alpha11, delta1 );
// FLA_Copyt( FLA_NO_TRANSPOSE, alpha11, absv );
// FLA_Absolute_value( absv );
// FLA_Inv_scal( absv, delta1 );
bli_zcopys( BLIS_CONJUGATE, alpha11, delta1 );
bli_zabsval2( alpha11, &absv );
bli_zinvscals( &absv, delta1 );
// FLA_Scalc( FLA_NO_CONJUGATE, delta1, alpha11 );
// FLA_Obj_set_imag_part( FLA_ZERO, alpha11 );
bli_zscals( delta1, alpha11 );
alpha11->imag = *buff_0;
if ( n_ahead > 0 )
{
// FLA_Scalc( FLA_NO_CONJUGATE, delta1, a12t_l );
bli_zscals( delta1, a12t_l );
}
}
break;
}
}
return FLA_SUCCESS;
}
| FLA_Error FLA_Bidiag_UT_u_realify_unb | ( | FLA_Obj | A, |
| FLA_Obj | d, | ||
| FLA_Obj | e | ||
| ) |
References FLA_Absolute_value(), FLA_Cont_with_3x1_to_2x1(), FLA_Cont_with_3x3_to_2x2(), FLA_Copyt(), FLA_Inv_scal(), FLA_Obj_create(), FLA_Obj_datatype(), FLA_Obj_free(), FLA_Obj_length(), FLA_Obj_min_dim(), FLA_Obj_set_imag_part(), FLA_Obj_width(), FLA_ONE, FLA_Part_1x2(), FLA_Part_2x1(), FLA_Part_2x2(), FLA_Repart_2x1_to_3x1(), FLA_Repart_2x2_to_3x3(), FLA_Scalc(), FLA_Set(), and FLA_ZERO.
{
FLA_Obj ATL, ATR, A00, a01, A02,
ABL, ABR, a10t, alpha11, a12t,
A20, a21, A22;
FLA_Obj dT, d0,
dB, delta1,
d2;
FLA_Obj eT, e0,
eB, epsilon1,
e2;
FLA_Obj a01_t,
a01_b;
FLA_Obj a12t_l, a12t_r;
FLA_Obj absv;
FLA_Obj_create( FLA_Obj_datatype( A ), 1, 1, 0, 0, &absv );
FLA_Part_2x2( A, &ATL, &ATR,
&ABL, &ABR, 0, 0, FLA_TL );
FLA_Part_2x1( d, &dT,
&dB, 0, FLA_TOP );
FLA_Part_2x1( e, &eT,
&eB, 0, FLA_TOP );
while ( FLA_Obj_min_dim( ABR ) > 0 )
{
FLA_Repart_2x2_to_3x3( ATL, /**/ ATR, &A00, /**/ &a01, &A02,
/* ************* */ /* ************************** */
&a10t, /**/ &alpha11, &a12t,
ABL, /**/ ABR, &A20, /**/ &a21, &A22,
1, 1, FLA_BR );
FLA_Repart_2x1_to_3x1( dT, &d0,
/* ** */ /* ****** */
&delta1,
dB, &d2, 1, FLA_BOTTOM );
FLA_Repart_2x1_to_3x1( eT, &e0,
/* ** */ /* ******** */
&epsilon1,
eB, &e2, 1, FLA_BOTTOM );
/*------------------------------------------------------------*/
if ( FLA_Obj_length( a01 ) == 0 )
{
// epsilon1 = 1;
FLA_Set( FLA_ONE, epsilon1 );
}
else
{
FLA_Part_2x1( a01, &a01_t,
&a01_b, 1, FLA_BOTTOM );
// epsilon1 = conj(a01_b) / abs(a01_b);
FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, a01_b, epsilon1 );
FLA_Copyt( FLA_NO_TRANSPOSE, a01_b, absv );
FLA_Absolute_value( absv );
FLA_Inv_scal( absv, epsilon1 );
// a01_b = epsilon1 * a01_b;
// a01_b.imag = 0;
FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, a01_b );
FLA_Obj_set_imag_part( FLA_ZERO, a01_b );
// alpha11 = epsilon1 * alpha11;
FLA_Scalc( FLA_NO_CONJUGATE, epsilon1, alpha11 );
}
// delta1 = conj(alpha11) / abs(alpha11);
FLA_Copyt( FLA_CONJ_NO_TRANSPOSE, alpha11, delta1 );
FLA_Copyt( FLA_NO_TRANSPOSE, alpha11, absv );
FLA_Absolute_value( absv );
FLA_Inv_scal( absv, delta1 );
// alpha11 = delta1 * alpha11;
// alpha11.imag = 0;
FLA_Scalc( FLA_NO_CONJUGATE, delta1, alpha11 );
FLA_Obj_set_imag_part( FLA_ZERO, alpha11 );
if ( FLA_Obj_width( a12t ) > 0 )
{
FLA_Part_1x2( a12t, &a12t_l, &a12t_r, 1, FLA_LEFT );
// a12t_l = delta1 * a12t_l;
FLA_Scalc( FLA_NO_CONJUGATE, delta1, a12t_l );
}
/*------------------------------------------------------------*/
FLA_Cont_with_3x3_to_2x2( &ATL, /**/ &ATR, A00, a01, /**/ A02,
a10t, alpha11, /**/ a12t,
/* ************** */ /* ************************ */
&ABL, /**/ &ABR, A20, a21, /**/ A22,
FLA_TL );
FLA_Cont_with_3x1_to_2x1( &dT, d0,
delta1,
/* ** */ /* ****** */
&dB, d2, FLA_TOP );
FLA_Cont_with_3x1_to_2x1( &eT, e0,
epsilon1,
/* ** */ /* ******** */
&eB, e2, FLA_TOP );
}
FLA_Obj_free( &absv );
return FLA_SUCCESS;
}
1.7.6.1