NAME¶
rtf_filter - filters a chunk of data
SYNOPSIS¶
#include <rtfilter.h>
unsigned int rtf_filter(hfilter filt, const void
*x,
void *y, unsigned int ns);
DESCRIPTION¶
This function applies the filter referenced by
filt on
ns samples
specified by the pointer
x and writes the filtered data into the array
pointed by
y. The arrays pointed by x and y must be made of values
whose correspond to the type specified at the creation of the filter. In
addition, the two arrays
must not overlap (failing to comply will lead
to undefined results).
Their number of elements have to be equal to
ns multiplied by the number
of channels processed (specified at the creation of the filter). The arrays
should be packed by channels with the following pattern:
|S1C1|S1C2|...|S1Ck|S2C1|S2C2|....|S2Ck|...|SnsCk|
where SiCj refers to the data value of the i-th sample and the j-th channel and
k refers to the number of channel specified at the creation of the filter.
RETURN VALUE¶
Returns the number of samples written in the array pointer by
y. For most
of the filters, this value will always be equal to
ns. This is however
not the case of a downsampling filter whose the number of samples returned may
vary from one call to another.
On platforms that support SIMD instructions,
rtf_filter() is implemented
in 2 different versions: one normal and one using SIMD instruction set which
performs nearly 4x faster than the normal one when processing
float
data types. The SIMD version is automatically selected at runtime if the
following conditions are met (otherwise, the implementation falls back to the
normal version):
- -
- The input x and output y are aligned on 16 bytes boundary
(128 bits)
- -
- The sample strides (the size of the data type multiplied by the number of
channel) of the input and output are multiples of 16 bytes.
The first condition is easily met by allocating
x and
y using
memory allocation function mandating a certain alignment (for example,
posix_memalign(3) on POSIX platform).
The second condition is met if the number of channels is carefully chosen. Given
the boost obtained with the SIMD version, it is often interesting to add
unused channels into the input and output (when possible) just to make the
strides multiple of 16 bytes (for example using always a multiple of 4
channels when dealing with
float and real values).
SEE ALSO¶
rtf_create_filter(3),
rtf_init_filter(3)