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NAME

PDL::Basic -- Basic utility functions for PDL

DESCRIPTION

This module contains basic utility functions for creating and manipulating ndarrays. Most of these functions are simplified interfaces to the more flexible functions in the modules PDL::Primitive and PDL::Slices.

SYNOPSIS

 use PDL::Basic;

FUNCTIONS

xvals

Fills an ndarray with X index values. Uses similar specifications to "zeroes" and "new_from_specification".

CAVEAT:

If you use the single argument ndarray form (top row in the usage table) the output will have the same type as the input, except that as of 2.064, the returned ndarray will default to at least type double. As of 2.085, this will respect a given type as in the second or third form below.

 $x = xvals($somearray); # at least type double
 $x = xvals([OPTIONAL TYPE],$nx,$ny,$nz...);
 $x = xvals([OPTIONAL TYPE], $somarray->dims);

etc. see zeroes.

  pdl> print xvals zeroes(5,10)
  [
   [0 1 2 3 4]
   [0 1 2 3 4]
   [0 1 2 3 4]
   [0 1 2 3 4]
   [0 1 2 3 4]
   [0 1 2 3 4]
   [0 1 2 3 4]
   [0 1 2 3 4]
   [0 1 2 3 4]
   [0 1 2 3 4]
  ]

yvals

Fills an ndarray with Y index values. See the CAVEAT for "xvals".

 $x = yvals($somearray); yvals(inplace($somearray));
 $x = yvals([OPTIONAL TYPE],$nx,$ny,$nz...);

etc. see zeroes.

 pdl> print yvals zeroes(5,10)
 [
  [0 0 0 0 0]
  [1 1 1 1 1]
  [2 2 2 2 2]
  [3 3 3 3 3]
  [4 4 4 4 4]
  [5 5 5 5 5]
  [6 6 6 6 6]
  [7 7 7 7 7]
  [8 8 8 8 8]
  [9 9 9 9 9]
 ]

zvals

Fills an ndarray with Z index values. See the CAVEAT for "xvals".

 $x = zvals($somearray); zvals(inplace($somearray));
 $x = zvals([OPTIONAL TYPE],$nx,$ny,$nz...);

etc. see zeroes.

 pdl> print zvals zeroes(3,4,2)
 [
  [
   [0 0 0]
   [0 0 0]
   [0 0 0]
   [0 0 0]
  ]
  [
   [1 1 1]
   [1 1 1]
   [1 1 1]
   [1 1 1]
  ]
 ]

xlinvals

X axis values between endpoints (see "xvals").

 $w = zeroes(100,100);
 $x = $w->xlinvals(0.5,1.5);
 $y = $w->ylinvals(-2,-1);
 # calculate Z for X between 0.5 and 1.5 and
 # Y between -2 and -1.
 $z = f($x,$y);

xlinvals, ylinvals and zlinvals return an ndarray with the same shape as their first argument and linearly scaled values between the two other arguments along the given axis.

ylinvals

Y axis values between endpoints (see "yvals").

See "xlinvals" for more information.

zlinvals

Z axis values between endpoints (see "zvals").

See "xlinvals" for more information.

xlogvals

X axis values logarithmically spaced between endpoints (see "xvals").

 $w = zeroes(100,100);
 $x = $w->xlogvals(1e-6,1e-3);
 $y = $w->ylinvals(1e-4,1e3);
 # calculate Z for X between 1e-6 and 1e-3 and
 # Y between 1e-4 and 1e3.
 $z = f($x,$y);

xlogvals, ylogvals and zlogvals return an ndarray with the same shape as their first argument and logarithmically scaled values between the two other arguments along the given axis.

ylogvals

Y axis values logarithmically spaced between endpoints (see "yvals").

See "xlogvals" for more information.

zlogvals

Z axis values logarithmically spaced between endpoints (see "zvals").

See "xlogvals" for more information.

allaxisvals

Synonym for "ndcoords" - enumerates all coordinates in a PDL or dim list, adding an extra dim on the front to accommodate the vector coordinate index (the form expected by "indexND", "range", and "interpND"). See "ndcoords" for more detail.

  $indices = allaxisvals($pdl);
  $indices = allaxisvals(@dimlist);
  $indices = allaxisvals($type,@dimlist);

ndcoords

Enumerate pixel coordinates for an N-D ndarray

Returns an enumerated list of coordinates suitable for use in indexND or range: you feed in a dimension list and get out an ndarray whose 0th dimension runs over dimension index and whose 1st through Nth dimensions are the dimensions given in the input. If you feed in an ndarray instead of a perl list, then the dimension list is used, as in "xvals" etc.

Unlike "xvals" etc., if you supply an ndarray input, you get out an ndarray of the default ndarray type: double. This causes less surprises than the previous default of keeping the data type of the input ndarray since that rarely made sense in most usages.

  $indices = ndcoords($pdl);
  $indices = ndcoords(@dimlist);
  $indices = ndcoords($type,@dimlist);
  pdl> print ndcoords(2,3)

  [
   [
    [0 0]
    [1 0]
   ]
   [
    [0 1]
    [1 1]
   ]
   [
    [0 2]
    [1 2]
   ]
  ]

  pdl> $w = zeroes(byte,2,3);        # $w is a 2x3 byte ndarray
  pdl> $y = ndcoords($w);            # $y inherits $w's type
  pdl> $c = ndcoords(long,$w->dims); # $c is a long ndarray, same dims as $y
  pdl> help $y;
  This variable is   Byte D [2,2,3]              P            0.01Kb
  pdl> help $c;
  This variable is   Long D [2,2,3]              P            0.05Kb

hist

Create histogram of an ndarray

 $hist = hist($data);
 ($xvals,$hist) = hist($data);

or

 $hist = hist($data,$min,$max,$step);
 ($xvals,$hist) = hist($data,[$min,$max,$step]);

If hist is run in list context, $xvals gives the computed bin centres as double values.

A nice idiom (with PDL::Graphics::PGPLOT) is

 bin hist $data;  # Plot histogram
 pdl> p $y
 [13 10 13 10 9 13 9 12 11 10 10 13 7 6 8 10 11 7 12 9 11 11 12 6 12 7]
 pdl> $h = hist $y,0,20,1; # hist with step 1, min 0 and 20 bins
 pdl> p $h
 [0 0 0 0 0 0 2 3 1 3 5 4 4 4 0 0 0 0 0 0]

whist

Create a weighted histogram of an ndarray

 $hist = whist($data, $wt, [$min,$max,$step]);
 ($xvals,$hist) = whist($data, $wt, [$min,$max,$step]);

If requested, $xvals gives the computed bin centres as type double values. $data and $wt should have the same dimensionality and extents.

A nice idiom (with PDL::Graphics::PGPLOT) is

 bin whist $data, $wt;  # Plot histogram
 pdl> p $y
 [13 10 13 10 9 13 9 12 11 10 10 13 7 6 8 10 11 7 12 9 11 11 12 6 12 7]
 pdl> $wt = grandom($y->nelem)
 pdl> $h = whist $y, $wt, 0, 20, 1 # hist with step 1, min 0 and 20 bins
 pdl> p $h
 [0 0 0 0 0 0 -0.49552342  1.7987439 0.39450696  4.0073722 -2.6255299 -2.5084501  2.6458365  4.1671676 0 0 0 0 0 0]

sequence

Create array filled with a sequence of values

 $w = sequence($y); $w = sequence [OPTIONAL TYPE], @dims;

etc. see zeroes.

 pdl> p sequence(10)
 [0 1 2 3 4 5 6 7 8 9]
 pdl> p sequence(3,4)
 [
  [ 0  1  2]
  [ 3  4  5]
  [ 6  7  8]
  [ 9 10 11]
 ]

rvals

Fills an ndarray with radial distance values from some centre.

 $r = rvals $ndarray,{OPTIONS};
 $r = rvals [OPTIONAL TYPE],$nx,$ny,...{OPTIONS};
 Options:

 Centre => [$x,$y,$z...] # Specify centre
 Center => [$x,$y.$z...] # synonym.

 Squared => 1 # return distance squared (i.e., don't take the square root)
 pdl> print rvals long,7,7,{Centre=>[2,2]}
 [
  [2 2 2 2 2 3 4]
  [2 1 1 1 2 3 4]
  [2 1 0 1 2 3 4]
  [2 1 1 1 2 3 4]
  [2 2 2 2 2 3 4]
  [3 3 3 3 3 4 5]
  [4 4 4 4 4 5 5]
 ]

If Center is not specified, the midpoint for a given dimension of size N is given by int(N/2) so that the midpoint always falls on an exact pixel point in the data. For dimensions of even size, that means the midpoint is shifted by 1/2 pixel from the true center of that dimension.

Also note that the calculation for rvals for integer values does not promote the datatype so you will have wraparound when the value calculated for r**2 is greater than the datatype can hold. If you need exact values, be sure to use large integer or floating point datatypes.

For a more general metric, one can define, e.g.,

 sub distance {
   my ($w,$centre,$f) = @_;
   my ($r) = $w->allaxisvals-$centre;
   $f->($r);
 }
 sub l1 { sumover(abs($_[0])); }
 sub euclid { use PDL::Math 'pow'; pow(sumover(pow($_[0],2)),0.5); }
 sub linfty { maximum(abs($_[0])); }

so now

 distance($w, $centre, \&euclid);

will emulate rvals, while \&l1 and \&linfty will generate other well-known norms.

axisvals

Fills an ndarray with index values on Nth dimension

 $z = axisvals ($ndarray, $nth);

This is the routine, for which "xvals", "yvals" etc are mere shorthands. axisvals can be used to fill along any dimension, using a parameter.

See also "allaxisvals", which generates all axis values simultaneously in a form useful for "range", "interpND", "indexND", etc.

Note the 'from specification' style (see zeroes) is not available here, for obvious reasons.

transpose

transpose rows and columns.

 $y = transpose($w);
 pdl> $w = sequence(3,2)
 pdl> p $w
 [
  [0 1 2]
  [3 4 5]
 ]
 pdl> p transpose( $w )
 [
  [0 3]
  [1 4]
  [2 5]
 ]