NAME

PDLA::Bad - PDLA does process bad values

DESCRIPTION

PDLA has been compiled with WITH_BADVAL set to 1. Therefore, you can enter the wonderful world of bad value support in PDLA.

This module is loaded when you do use PDLA, Use PDLA::Lite or PDLA::LiteF.

Implementation details are given in PDLA::BadValues.

SYNOPSIS

use PDLA::Bad;
print "\nBad value support in PDLA is turned " .
    $PDLA::Bad::Status ? "on" : "off" . ".\n";

Bad value support in PDLA is turned on.

and some other things

VARIABLES

There are currently three variables that this module defines which may be of use.

$PDLA::Bad::Status

Set to 1

$PDLA::Bad::UseNaN

Set to 1 if PDLA was compiled with BADVAL_USENAN set, 0 otherwise.

$PDLA::Bad::PerPdl

Set to 1 if PDLA was compiled with the experimental BADVAL_PER_PDLA option set, 0 otherwise.

FUNCTIONS

badflag

getter/setter for the bad data flag

if ( $a->badflag() ) {
  print "Data may contain bad values.\n";
}
$a->badflag(1);      # set bad data flag
$a->badflag(0);      # unset bad data flag

When called as a setter, this modifies the piddle on which it is called. This always returns a Perl scalar with the final value of the bad flag.

A return value of 1 does not guarantee the presence of bad data in a piddle; all it does is say that we need to check for the presence of such beasties. To actually find out if there are any bad values present in a piddle, use the check_badflag method.

This function works with piddles that have bad values. It always returns a Perl scalar, so it never returns bad values.

badvalue

returns the value used to indicate a missing (or bad) element for the given piddle type. You can give it a piddle, a PDLA::Type object, or one of $PDLA_B, $PDLA_S, etc.

$badval = badvalue( float );
$a = ones(ushort,10);
print "The bad data value for ushort is: ",
   $a->badvalue(), "\n";

This can act as a setter (e.g. $a->badvalue(23)) if the data type is an integer or $PDLA::Bad::UseNaN == 0. Note that this never touches the data in the piddle. That is, if $a already has bad values, they will not be changed to use the given number and if any elements of $a have that value, they will unceremoniously be marked as bad data. See "setvaltobad", "setbadtoval", and "setbadif" for ways to actually modify the data in piddles

If the $PDLA::Bad::PerPdl flag is set then it is possible to change the bad value on a per-piddle basis, so

$a = sequence (10);
$a->badvalue (3); $a->badflag (1);
$b = sequence (10);
$b->badvalue (4); $b->badflag (1);

will set $a to be [0 1 2 BAD 4 5 6 7 8 9] and $b to be [0 1 2 3 BAD 5 6 7 8 9]. If the flag is not set then both $a and $b will be set to [0 1 2 3 BAD 5 6 7 8 9]. Please note that the code to support per-piddle bad values is experimental in the current release, and it requires that you modify the settings under which PDLA is compiled.

This method does not care if you call it on an input piddle that has bad values. It always returns a Perl scalar with the current or new bad value.

orig_badvalue

returns the original value used to represent bad values for a given type.

This routine operates the same as badvalue, except you can not change the values.

It also has an awful name.

$orig_badval = orig_badvalue( float );
$a = ones(ushort,10);
print "The original bad data value for ushort is: ", 
   $a->orig_badvalue(), "\n";

This method does not care if you call it on an input piddle that has bad values. It always returns a Perl scalar with the original bad value for the associated type.

check_badflag

Clear the bad-value flag of a piddle if it does not contain any bad values

Given a piddle whose bad flag is set, check whether it actually contains any bad values and, if not, clear the flag. It returns the final state of the bad-value flag.

print "State of bad flag == ", $pdl->check_badflag;

This method accepts piddles with or without bad values. It returns a Perl scalar with the final bad-value flag, so it never returns bad values itself.

isbad

Signature: (a(); int [o]b())

Returns a binary mask indicating which values of the input are bad values

Returns a 1 if the value is bad, 0 otherwise. Similar to isfinite.

$a = pdl(1,2,3);
$a->badflag(1);
set($a,1,$a->badvalue);
$b = isbad($a);
print $b, "\n";
[0 1 0]

This method works with input piddles that are bad. The ouptut piddle will never contain bad values, but its bad value flag will be the same as the input piddle's flag.

isgood

Signature: (a(); int [o]b())

Is a value good?

Returns a 1 if the value is good, 0 otherwise. Also see isfinite.

$a = pdl(1,2,3);
$a->badflag(1);
set($a,1,$a->badvalue);
$b = isgood($a);
print $b, "\n";
[1 0 1]

This method works with input piddles that are bad. The ouptut piddle will never contain bad values, but its bad value flag will be the same as the input piddle's flag.

nbadover

Signature: (a(n); int+ [o] b())

Find the number of bad elements along the 1st dimension.

This function reduces the dimensionality of a piddle by one by finding the number of bad elements along the 1st dimension. In this sense it shares much in common with the functions defined in PDLA::Ufunc. In particular, by using xchg and similar dimension rearranging methods, it is possible to perform this calculation over any dimension.

$a = nbadover($b);

$spectrum = nbadover $image->xchg(0,1)

nbadover processes input values that are bad. The ouput piddle will not have any bad values, but the bad flag will be set if the input piddle had its bad flag set.

ngoodover

Signature: (a(n); int+ [o] b())

Find the number of good elements along the 1st dimension.

This function reduces the dimensionality of a piddle by one by finding the number of good elements along the 1st dimension.

By using xchg etc. it is possible to use any dimension.

$a = ngoodover($b);

$spectrum = ngoodover $image->xchg(0,1)

ngoodover processes input values that are bad. The ouput piddle will not have any bad values, but the bad flag will be set if the input piddle had its bad flag set.

nbad

Returns the number of bad values in a piddle

$x = nbad($data);

Accepts good and bad input piddles; output is a Perl scalar and therefore is always good.

ngood

Returns the number of good values in a piddle

$x = ngood($data);

Accepts good and bad input piddles; output is a Perl scalar and therefore is always good.

setbadat

Set the value to bad at a given position.

setbadat $piddle, @position

@position is a coordinate list, of size equal to the number of dimensions in the piddle. This is a wrapper around set and is probably mainly useful in test scripts!

pdl> $x = sequence 3,4
pdl> $x->setbadat 2,1
pdl> p $x
[
 [  0   1   2]
 [  3   4 BAD]
 [  6   7   8]
 [  9  10  11]
]

This method can be called on piddles that have bad values. The remainder of the arguments should be Perl scalars indicating the position to set as bad. The ouptut piddle will have bad values and will have its badflag turned on.

setbadif

Signature: (a(); int mask(); [o]b())

Set elements bad based on the supplied mask, otherwise copy across the data.

pdl> $a = sequence(5,5)
pdl> $a = $a->setbadif( $a % 2 )
pdl> p "a badflag: ", $a->badflag, "\n"
a badflag: 1
pdl> p "a is\n$a"
[
 [  0 BAD   2 BAD   4]
 [BAD   6 BAD   8 BAD]
 [ 10 BAD  12 BAD  14]
 [BAD  16 BAD  18 BAD]
 [ 20 BAD  22 BAD  24]
]

Unfortunately, this routine can not be run inplace, since the current implementation can not handle the same piddle used as a and mask (eg $a->inplace->setbadif($a%2) fails). Even more unfortunate: we can't catch this error and tell you.

The output always has its bad flag set, even if it does not contain any bad values (use check_badflag to check whether there are any bad values in the output). The input piddle can have bad values: any bad values in the input piddles are copied across to the output piddle.

Also see setvaltobad and setnantobad.

setvaltobad

Signature: (a(); [o]b(); double value)

Set bad all those elements which equal the supplied value.

$a = sequence(10) % 3;
$a->inplace->setvaltobad( 0 );
print "$a\n";
[BAD 1 2 BAD 1 2 BAD 1 2 BAD]

This is a simpler version of setbadif, but this function can be done inplace. See setnantobad if you want to convert NaN/Inf to the bad value.

The output always has its bad flag set, even if it does not contain any bad values (use check_badflag to check whether there are any bad values in the output). Any bad values in the input piddles are copied across to the output piddle.

setnantobad

Signature: (a(); [o]b())

Sets NaN/Inf values in the input piddle bad (only relevant for floating-point piddles). Can be done inplace.

$b = $a->setnantobad;
$a->inplace->setnantobad;

This method can process piddles with bad values: those bad values are propagated into the output piddle. Any value that is not finite is also set to bad in the output piddle. If all values from the input piddle are good and finite, the output piddle will not have its bad flag set. One more caveat: if done inplace, and if the input piddle's bad flag is set, it will no

setbadtonan

Signature: (a(); [o] b();)

Sets Bad values to NaN

This is only relevant for floating-point piddles. The input piddle can be of any type, but if done inplace, the input must be floating point.

$b = $a->setbadtonan;
$a->inplace->setbadtonan;

This method processes input piddles with bad values. The output piddles will not contain bad values (insofar as NaN is not Bad as far as PDLA is concerned) and the output piddle does not have its bad flag set. As an inplace operation, it clears the bad flag.

setbadtoval

Signature: (a(); [o]b(); double newval)

Replace any bad values by a (non-bad) value.

Can be done inplace. Also see badmask.

$a->inplace->setbadtoval(23); 
print "a badflag: ", $a->badflag, "\n";
a badflag: 0

The output always has its bad flag cleared. If the input piddle does not have its bad flag set, then values are copied with no replacement.

copybad

Signature: (a(); mask(); [o]b())

Copies values from one piddle to another, setting them bad if they are bad in the supplied mask.

Can be done inplace.

$a = byte( [0,1,3] );
$mask = byte( [0,0,0] );
set($mask,1,$mask->badvalue);
$a->inplace->copybad( $mask );
p $a;
[0 BAD 3]

It is equivalent to:

$c = $a + $mask * 0

This handles input piddles that are bad. If either $a or $mask have bad values, those values will be marked as bad in the output piddle and the output piddle will have its bad value flag set to true.

CHANGES

The experimental BADVAL_PER_PDLA configuration option, which - when set - allows per-piddle bad values, was added after the 2.4.2 release of PDLA. The $PDLA::Bad::PerPdl variable can be inspected to see if this feature is available.

CONFIGURATION

The way the PDLA handles the various bad value settings depends on your compile-time configuration settings, as held in perldl.conf.

$PDLA::Config{WITH_BADVAL}

Set this configuration option to a true value if you want bad value support. The default setting is for this to be true.

$PDLA::Config{BADVAL_USENAN}

Set this configuration option to a true value if you want floating-pont numbers to use NaN to represent the bad value. If set to false, you can use any number to represent a bad value, which is generally more flexible. In the default configuration, this is set to a false value.

$PDLA::Config{BADVAL_PER_PDLA}

Set this configuration option to a true value if you want each of your piddles to keep track of their own bad values. This means that for one piddle you can set the bad value to zero, while in another piddle you can set the bad value to NaN (or any other useful number). This is usually set to false.

AUTHOR

Doug Burke (djburke@cpan.org), 2000, 2001, 2003, 2006.

The per-piddle bad value support is by Heiko Klein (2006).

CPAN documentation fixes by David Mertens (2010, 2013).

All rights reserved. There is no warranty. You are allowed to redistribute this software / documentation under certain conditions. For details, see the file COPYING in the PDLA distribution. If this file is separated from the PDLA distribution, the copyright notice should be included in the file.

cpanm PDLA::Core

perl -MCPAN -e shell
install PDLA::Core