struct filter_sys_t
{
int i_angle;
+ int i_cos;
+ int i_sin;
+
mtime_t last_date;
};
p_filter->p_sys->last_date = 0;
var_Create( p_filter->p_libvlc, "rotate_angle", VLC_VAR_INTEGER );
- var_SetInteger( p_filter->p_libvlc, "rotate_angle",
- p_filter->p_sys->i_angle );
var_AddCallback( p_filter->p_libvlc,
"rotate_angle", RotateCallback, p_filter->p_sys );
+ var_SetInteger( p_filter->p_libvlc, "rotate_angle",
+ p_filter->p_sys->i_angle );
return VLC_SUCCESS;
}
static picture_t *Filter( filter_t *p_filter, picture_t *p_pic )
{
picture_t *p_outpic;
+ filter_sys_t *p_sys = p_filter->p_sys;
int i_index;
- double f_angle;
- double f_sin, f_cos;
+ int i_sin = p_sys->i_sin, i_cos = p_sys->i_cos;
mtime_t new_date = mdate();
if( !p_pic ) return NULL;
return NULL;
}
- p_filter->p_sys->last_date = new_date;
- f_angle = (((double)p_filter->p_sys->i_angle)*M_PI)/180.;
- f_sin = sin( f_angle );
- f_cos = cos( f_angle );
+ p_sys->last_date = new_date;
for( i_index = 0 ; i_index < p_pic->i_planes ; i_index++ )
{
black_pixel = ( i_index == Y_PLANE ) ? 0x00 : 0x80;
- /* Ok, we do 3 times the sin() calculation for each line. So what ? */
for( i_line = 0 ; i_line < i_num_lines ; i_line++ )
{
for( i_col = 0; i_col < i_num_cols ; i_col++ )
{
int i_line_orig, i_col_orig;
- i_line_orig = (int)( f_cos * (double)(i_line-i_line_center)
- + f_sin * (double)(i_col-i_col_center)
- + 0.5 )
+ i_line_orig = ( ( i_cos * (i_line-i_line_center)
+ + i_sin * (i_col-i_col_center)
+ + 128 )>>8 )
+ i_line_center;
- i_col_orig = (int)(-f_sin * (double)(i_line-i_line_center)
- + f_cos * (double)(i_col-i_col_center)
- + 0.5 )
+ i_col_orig = ( (-i_sin * (i_line-i_line_center)
+ + i_cos * (i_col-i_col_center)
+ + 128 )>>8 )
+ i_col_center;
if( 0 <= i_line_orig && i_line_orig < i_num_lines
if( !strcmp( psz_var, "rotate_angle" ) )
{
+ double f_angle;
+
p_sys->i_angle = newval.i_int;
+
+ f_angle = (((double)p_sys->i_angle)*M_PI)/180.;
+ p_sys->i_sin = (int)(sin( f_angle )*256.);
+ p_sys->i_cos = (int)(cos( f_angle )*256.);
}
return VLC_SUCCESS;
}