File Coverage

blib/lib/PDLA/IO/Misc.pm

Criterion	Covered	Total	%
statement	345	537	64.2
branch	157	318	49.3
condition	48	103	46.6
subroutine	27	32	84.3
pod	5	11	45.4
total	582	1001	58.1

line	stmt	bran	cond	sub	pod	time	code
1
2							#
3							# GENERATED WITH PDLA::PP! Don't modify!
4							#
5							package PDLA::IO::Misc;
6
7							@EXPORT_OK = qw( rcols wcols swcols rgrep rdsa PDLA::PP bswap2 PDLA::PP bswap4 PDLA::PP bswap8 isbigendian rasc rcube PDLA::PP _rasc );
8							%EXPORT_TAGS = (Func=>[@EXPORT_OK]);
9
10	17			17		680	use PDLA::Core;
	17					41
	17					118
11	17			17		120	use PDLA::Exporter;
	17					36
	17					98
12	17			17		91	use DynaLoader;
	17					61
	17					1171
13
14
15
16
17							@ISA = ( 'PDLA::Exporter','DynaLoader' );
18							push @PDLA::Core::PP, __PACKAGE__;
19							bootstrap PDLA::IO::Misc ;
20
21
22
23
24
25							=head1 NAME
26
27							PDLA::IO::Misc - misc IO routines for PDLA
28
29							=head1 DESCRIPTION
30
31							Some basic I/O functionality: FITS, tables, byte-swapping
32
33							=head1 SYNOPSIS
34
35							use PDLA::IO::Misc;
36
37							=cut
38
39
40
41
42
43
44
45							=head1 FUNCTIONS
46
47
48
49							=cut
50
51
52
53
54
55	17			17		137	use PDLA::Primitive;
	17					38
	17					114
56	17			17		135	use PDLA::Types;
	17					45
	17					2166
57	17			17		125	use PDLA::Options;
	17					37
	17					1037
58	17			17		185	use PDLA::Bad;
	17					36
	17					103
59	17			17		122	use Carp;
	17					40
	17					1090
60	17			17		123	use Symbol qw/ gensym /;
	17					48
	17					902
61	17			17		104	use List::Util;
	17					44
	17					899
62	17			17		119	use strict;
	17					37
	17					10881
63
64
65
66
67
68							=head2 bswap2
69
70							=for sig
71
72							Signature: (x(); )
73
74							=for ref
75
76							Swaps pairs of bytes in argument x()
77
78							=for bad
79
80							bswap2 does not process bad values.
81							It will set the bad-value flag of all output piddles if the flag is set for any of the input piddles.
82
83
84							=cut
85
86
87
88
89
90
91							*bswap2 = \&PDLA::bswap2;
92
93
94
95
96
97							=head2 bswap4
98
99							=for sig
100
101							Signature: (x(); )
102
103							=for ref
104
105							Swaps quads of bytes in argument x()
106
107							=for bad
108
109							bswap4 does not process bad values.
110							It will set the bad-value flag of all output piddles if the flag is set for any of the input piddles.
111
112
113							=cut
114
115
116
117
118
119
120							*bswap4 = \&PDLA::bswap4;
121
122
123
124
125
126							=head2 bswap8
127
128							=for sig
129
130							Signature: (x(); )
131
132							=for ref
133
134							Swaps octets of bytes in argument x()
135
136							=for bad
137
138							bswap8 does not process bad values.
139							It will set the bad-value flag of all output piddles if the flag is set for any of the input piddles.
140
141
142							=cut
143
144
145
146
147
148
149							*bswap8 = \&PDLA::bswap8;
150
151
152
153
154
155
156							# Internal routine to extend PDLA array by size $n along last dimension
157							# - Would be nice to have a proper extend function rather than hack
158							# - Is a NO-OP when handed a perl ARRAY ref rather than a piddle arg
159							sub _ext_lastD { # Called by rcols and rgrep
160	28			28		55	my ($x,$n) = @_;
161	28	50				74	if (ref($_[0]) ne 'ARRAY') {
162	28					73	my @nold = $x->dims;
163	28					55	my @nnew = @nold;
164	28					44	$nnew[-1] += $n; # add $n to the last dimension
165	28					72	my $y = zeroes($x->type,@nnew); # New pdl
166	28					269	my $yy = $y->mv(-1,0)->slice("0:".($nold[-1]-1))->mv(0,-1);
167	28					141	$yy .= $x;
168	28					163	$_[0] = $y;
169							}
170	28					97	1;
171							}
172
173							# Implements PDLA->at() for either 1D PDLA or ARRAY arguments
174							# TODO: Need to add support for multidim piddles parallel to rcols
175							sub _at_1D ($$) { # Called by wcols and swcols
176	32			32		48	my $data = $_[0];
177	32					34	my $index = $_[1];
178
179	32	50				58	if (ref $data eq 'ARRAY') {
180	0					0	return $data->[$index];
181							} else {
182	32					67	return $data->at($index);
183							}
184							}
185
186							# squeezes "fluffy" perl list values into column data type
187							sub _burp_1D {
188	55			55		88	my $data = $_[0]->[0];
189	55					70	my $databox = $_[0]->[1];
190	55					75	my $index = $_[1];
191
192	55					71	my $start = $index - @{$databox} + 1;
	55					93
193
194	55					75	my $tmp; # work around for perl -d "feature"
195	55	50				163	if (ref $data eq 'ARRAY') {
		100
196	0					0	push @{$data}, @{$databox};
	0					0
	0					0
197							} elsif ( ref($databox->[0]) eq "ARRAY" ) {
198							# could add POSIX::strtol for hex and octal support but
199							# can't break float conversions (how?)
200	2					17	($tmp = $data->slice(":,$start:$index")) .= pdl($databox);
201							} else {
202							# could add POSIX::strtol for hex and octal support but
203							# can't break float conversions (how?)
204	53					228	($tmp = $data->slice("$start:$index")) .= pdl($databox);
205							}
206	55					374	$_[0] = [ $data, [] ];
207							}
208
209							# taken outside of rcols() to avoid clutter
210							sub _handle_types ($$$) {
211	11			11		24	my $ncols = shift;
212	11					19	my $deftype = shift;
213	11					14	my $types = shift;
214
215	11	50				31	barf "Unknown PDLA type given for DEFTYPE.\n"
216							unless ref($deftype) eq "PDLA::Type";
217
218	11	50				30	my @cols = ref($types) eq "ARRAY" ? @$types : ();
219
220	11	100				24	if ( $#cols > -1 ) {
221							# truncate if required
222	1	50				5	$#cols = $ncols if $#cols > $ncols;
223
224							# check input values are sensible
225	1					4	for ( 0 .. $#cols ) {
226	1	50				5	barf "Unknown value '$cols[$_]' in TYPES array.\n"
227							unless ref($cols[$_]) eq "PDLA::Type";
228							}
229							}
230
231							# fill in any missing columns
232	11					34	for ( ($#cols+1) .. $ncols ) { push @cols, $deftype; }
	20					36
233
234	11					30	return @cols;
235							} # sub: _handle_types
236
237
238							# Whether an object is an IO handle
239	17			17		153	use Scalar::Util;
	17					51
	17					2664
240							sub _is_io_handle {
241	16			16		31	my $h = shift;
242							# reftype catches almost every handle, except: *MYHANDLE
243							# fileno catches *MYHANDLE, but doesn't catch handles that aren't files
244	16					44	my $reftype = Scalar::Util::reftype($h);
245	16		66			118	return defined(fileno($h)) \|\| (defined($reftype) && $reftype eq 'GLOB');
246							}
247
248
249							=head2 rcols
250
251							=for ref
252
253							Read specified ASCII cols from a file into piddles and perl
254							arrays (also see L).
255
256							=for usage
257
258							Usage:
259							($x,$y,...) = rcols( *HANDLE\|"filename", { EXCLUDE => '/^!/' }, $col1, $col2, ... )
260							$x = rcols( *HANDLE\|"filename", { EXCLUDE => '/^!/' }, [] )
261							($x,$y,...) = rcols( *HANDLE\|"filename", $col1, $col2, ..., { EXCLUDE => '/^!/' } )
262							($x,$y,...) = rcols( *HANDLE\|"filename", "/foo/", $col1, $col2, ... )
263
264							For each column number specified, a 1D output PDLA will be
265							generated. Anonymous arrays of column numbers generate
266							2D output piddles with dim0 for the column data and dim1
267							equal to the number of columns in the anonymous array(s).
268
269							An empty anonymous array as column specification will
270							produce a single output data piddle with dim(1) equal
271							to the number of columns available.
272
273							There are two calling conventions - the old version, where a
274							pattern can be specified after the filename/handle, and the
275							new version where options are given as as hash reference.
276							This reference can be given as either the second or last
277							argument.
278
279							The default behaviour is to ignore lines beginning with
280							a # character and lines that only consist of whitespace.
281							Options exist to only read from lines that match, or do
282							not match, supplied patterns, and to set the types of the
283							created piddles.
284
285							Can take file name or *HANDLE, and if no explicit column
286							numbers are specified, all are assumed. For the allowed types,
287							see L.
288
289							Options (case insensitive):
290
291							EXCLUDE or IGNORE
292							- ignore lines matching this pattern (default B<'/^#/'>).
293
294							INCLUDE or KEEP
295							- only use lines which match this pattern (default B<''>).
296
297							LINES
298							- a string pattern specifying which line numbers to use.
299							Line numbers start at 0 and the syntax is 'a:b:c' to use
300							every c'th matching line between a and b (default B<''>).
301
302							DEFTYPE
303							- default data type for stored data (if not specified, use the type
304							stored in C<$PDLA::IO::Misc::deftype>, which starts off as B).
305
306							TYPES
307							- reference to an array of data types, one element for each column
308							to be read in. Any missing columns use the DEFTYPE value (default B<[]>).
309
310							COLSEP
311							- splits on this string/pattern/qr{} between columns of data. Defaults to
312							$PDLA::IO::Misc::defcolsep.
313
314							PERLCOLS
315							- an array of column numbers which are to be read into perl arrays
316							rather than piddles. Any columns not specified in the explicit list
317							of columns to read will be returned after the explicit columns.
318							(default B).
319
320							COLIDS
321							- if defined to an array reference, it will be assigned the column
322							ID values obtained by splitting the first line of the file in the
323							identical fashion to the column data.
324
325							CHUNKSIZE
326							- the number of input data elements to batch together before appending
327							to each output data piddle (Default value is 100). If CHUNKSIZE is
328							greater than the number of lines of data to read, the entire file is
329							slurped in, lines split, and perl lists of column data are generated.
330							At the end, effectively pdl(@column_data) produces any result piddles.
331
332							VERBOSE
333							- be verbose about IO processing (default C<$PDLA::vebose>)
334
335							=for example
336
337							For example:
338
339							$x = PDLA->rcols 'file1'; # file1 has only one column of data
340							$x = PDLA->rcols 'file2', []; # file2 can have multiple columns, still 1 piddle output
341							# (empty array ref spec means all possible data fields)
342
343							($x,$y) = rcols 'table.csv', { COLSEP => ',' }; # read CSV data file
344							($x,$y) = rcols *STDOUT; # default separator for lines like '32 24'
345
346							# read in lines containing the string foo, where the first
347							# example also ignores lines that begin with a # character.
348							($x,$y,$z) = rcols 'file2', 0,4,5, { INCLUDE => '/foo/' };
349							($x,$y,$z) = rcols 'file2', 0,4,5, { INCLUDE => '/foo/', EXCLUDE => '' };
350
351							# ignore the first 27 lines of the file, reading in as ushort's
352							($x,$y) = rcols 'file3', { LINES => '27:-1', DEFTYPE => ushort };
353							($x,$y) = rcols 'file3', { LINES => '27:', TYPES => [ ushort, ushort ] };
354
355							# read in the first column as a perl array and the next two as piddles
356							# with the perl column returned after the piddle outputs
357							($x,$y,$name) = rcols 'file4', 1, 2 , { PERLCOLS => [ 0 ] };
358							printf "Number of names read in = %d\n", 1 + $#$name;
359
360							# read in the first column as a perl array and the next two as piddles
361							# with PERLCOLS changing the type of the first returned value to perl list ref
362							($name,$x,$y) = rcols 'file4', 0, 1, 2, { PERLCOLS => [ 0 ] };
363
364							# read in the first column as a perl array returned first followed by the
365							# the next two data columns in the file as a single Nx2 piddle
366							($name,$xy) = rcols 'file4', 0, [1, 2], { PERLCOLS => [ 0 ] };
367
368
369							NOTES:
370
371							1. Quotes are required on patterns or use the qr{} quote regexp syntax.
372
373							2. Columns are separated by whitespace by default, use the COLSEP option
374							separator to specify an alternate split pattern or string or specify an
375							alternate default separator by setting C<$PDLA::IO::Misc::defcolsep> .
376
377							3. Legacy support is present to use C<$PDLA::IO::Misc::colsep> to set the
378							column separator but C<$PDLA::IO::Misc::colsep> is not defined by default.
379							If you set the variable to a defined value it will get picked up.
380
381							4. LINES => '-1:0:3' may not work as you expect, since lines are skipped
382							when read in, then the whole array reversed.
383
384							5. For consistency with wcols and rcols 1D usage, column data is loaded
385							into the rows of the pdls (i.e., dim(0) is the elements read per column
386							in the file and dim(1) is the number of columns of data read.
387
388							=cut
389
390	17			17		134	use vars qw/ $colsep $defcolsep $deftype /;
	17					38
	17					36649
391
392							$defcolsep = ' '; # Default column separator
393							$deftype = double; # Default type for piddles
394
395							my $defchunksize = 100; # Number of perl list items to append to piddle
396							my $usecolsep; # This is the colsep value that is actually used
397
398							# NOTE: XXX
399							# need to look at the line-selection code. For instance, if want
400							# lines => '-1:0:3',
401							# read in all lines, reverse, then apply the step
402							# -> fix point 4 above
403							#
404							# perhaps should just simplify the LINES option - ie remove
405							# support for reversed arrays?
406
407	11			11	1	4838	sub rcols{ PDLA->rcols(@_) }
408
409							sub PDLA::rcols {
410	11			11	0	21	my $class = shift;
411	11	50				39	barf 'Usage ($x,$y,...) = rcols( *HANDLE\|"filename", ["/pattern/" or \%options], $col1, $col2, ..., [ \%options] )'
412							if $#_<0;
413
414	11					30	my $is_handle = _is_io_handle $_[0];
415	11	100				38	my $fh = $is_handle ? $_[0] : gensym;
416	11	100	50			416	open $fh, $_[0] or die "File $_[0] not found\n" unless $is_handle;
417	11					35	shift;
418
419							# set up default options
420	11					121	my $opt = new PDLA::Options( {
421							CHUNKSIZE => undef,
422							COLIDS => undef,
423							COLSEP => undef,
424							DEFTYPE => $deftype,
425							EXCLUDE => '/^#/',
426							INCLUDE => undef,
427							LINES => '',
428							PERLCOLS => undef,
429							TYPES => [],
430							VERBOSE=> $PDLA::verbose,
431							} );
432	11					56	$opt->synonyms( { IGNORE => 'EXCLUDE', KEEP => 'INCLUDE' } );
433
434							# has the user supplied any options
435	11	100				29	if ( defined($_[0]) ) {
436							# ensure the old-style behaviour by setting the exclude pattern to undef
437	9	100				56	if ( $_[0] =~ m\|^/.*/$\| ) { $opt->options( { EXCLUDE => undef, INCLUDE => shift } ); }
	1	50				8
		100
438	0					0	elsif ( ref($_[0]) eq "Regexp" ) { $opt->options( { EXCLUDE => undef, INCLUDE => shift } ); }
439	2					6	elsif ( ref($_[0]) eq "HASH" ) { $opt->options( shift ); }
440							}
441
442							# maybe the last element is a hash array as well
443	11	100	100			46	$opt->options( pop ) if defined($_[-1]) and ref($_[-1]) eq "HASH";
444
445							# a reference to a hash array
446	11					29	my $options = $opt->current();
447
448							# handle legacy colsep variable
449	11	50				26	$usecolsep = (defined $colsep) ? qr{$colsep} : undef;
450	11	100				35	$usecolsep = qr{$options->{COLSEP}} if $options->{COLSEP};
451
452							# what are the patterns?
453	11					21	foreach my $pattern ( qw( INCLUDE EXCLUDE ) ) {
454	22	100	66			79	if ( $options->{$pattern} and ref($options->{$pattern}) ne "Regexp" ) {
455	12	50				63	if ( $options->{$pattern} =~ m\|^/.*/$\| ) {
456	12					76	$options->{$pattern} =~ s\|^/(.*)/$\|$1\|;
457	12					102	$options->{$pattern} = qr($options->{$pattern});
458							} else {
459	0					0	barf "rcols() - unable to process $pattern value.\n";
460							}
461							}
462							}
463
464							# CHUNKSIZE controls memory/time tradeoff of piddle IO
465	11		33			40	my $chunksize = $options->{CHUNKSIZE} \|\| $defchunksize;
466	11					17	my $nextburpindex = -1;
467
468							# which columns are to be read into piddles and which into perl arrays?
469	11					17	my @end_perl_cols = (); # unique perl cols to return at end
470
471	11					15	my @perl_cols = (); # perl cols index list from PERLCOLS option
472	11	50				22	@perl_cols = @{ $$options{PERLCOLS} } if $$options{PERLCOLS};
	0					0
473
474	11					17	my @is_perl_col; # true if index corresponds to a perl column
475	11					20	for (@perl_cols) { $is_perl_col[$_] = 1; };
	0					0
476							# print STDERR "rcols: \@is_perl_col is @is_perl_col\n";
477
478	11					23	my ( @explicit_cols ) = @_; # call specified columns to read
479							# print STDERR "rcols: \@explicit_cols is @explicit_cols\n";
480
481							# work out which line numbers are required
482							# - the regexp's are a bit over the top
483	11					18	my ( $x, $y, $c );
484	11	100				23	if ( $$options{LINES} ne '' ) {
485	1	50				8	if ( $$options{LINES} =~ /^\s([+-]?\d)\s:\s([+-]?\d)\s$/ ) {
		0
486	1					3	$x = $1; $y = $2;
	1					3
487							} elsif ( $$options{LINES} =~ /^\s([+-]?\d)\s:\s([+-]?\d)\s:\s([+]?\d)\s*$/ ) {
488	0					0	$x = $1; $y = $2; $c = $3;
	0					0
	0					0
489							} else {
490	0					0	barf "rcols() - unable to parse LINES option.\n";
491							}
492							}
493
494							# Since we do not know how many lines there are in advance, things get a bit messy
495	11					20	my ( $index_start, $index_end ) = ( 0, -1 );
496	11	100	66			32	$index_start = $x if defined($x) and $x ne '';
497	11	100	66			25	$index_end = $y if defined($y) and $y ne '';
498	11		50			29	my $line_step = $c \|\| 1;
499
500							# $line_rev = 0/1 for normal order/reversed
501							# $line_start/_end refer to the first and last line numbers that we want
502							# (the values of which we may not know until we've read in all the file)
503	11					18	my ( $line_start, $line_end, $line_rev );
504	11	100	66			92	if ( ($index_start >= 0 and $index_end < 0) ) {
		50	33
		0	0
		0	0
		0
505							# eg 0:-1
506	10					17	$line_rev = 0; $line_start = $index_start;
	10					13
507							} elsif ( $index_end >= 0 and $index_start < 0 ) {
508							# eg -1:0
509	1					3	$line_rev = 1; $line_start = $index_end;
	1					2
510							} elsif ( $index_end >= $index_start and $index_start >= 0 ) {
511							# eg 0:10
512	0					0	$line_rev = 0; $line_start = $index_start; $line_end = $index_end;
	0					0
	0					0
513							} elsif ( $index_start > $index_end and $index_end >= 0 ) {
514							# eg 10:0
515	0					0	$line_rev = 1; $line_start = $index_end; $line_end = $index_start;
	0					0
	0					0
516							} elsif ( $index_start <= $index_end ) {
517							# eg -5:-1
518	0					0	$line_rev = 0;
519							} else {
520							# eg -1:-5
521	0					0	$line_rev = 1;
522							}
523
524	11					18	my @ret;
525
526	11					15	my ($k,$fhline);
527
528	11					14	my $line_num = -1;
529	11					19	my $line_ctr = $line_step - 1; # ensure first line is always included
530	11					15	my $index = -1;
531	11					15	my $pdlsize = 0;
532	11					17	my $extend = 10000;
533
534	11					12	my $line_store; # line numbers of saved data
535
536							RCOLS_IO: {
537
538	11	50				25	if ($options->{COLIDS}) {
	11					23
539	0	0				0	print STDERR "rcols: processing COLIDS option\n" if $options->{VERBOSE};
540	0					0	undef $!;
541	0	0				0	if (defined($fhline = <$fh>) ) { # grab first line's fields for column IDs
542	0					0	$fhline =~ s/\r?\n$//; # handle DOS on unix files better
543	0	0				0	my @v = defined($usecolsep) ? split($usecolsep,$fhline) : split(' ',$fhline);
544	0					0	@{$options->{COLIDS}} = @v;
	0					0
545							} else {
546	0	0				0	die "rcols: reading COLIDS info, $!" if $!;
547	0					0	last RCOLS_IO;
548							}
549							}
550
551	11					162	while( defined($fhline = <$fh>) ) {
552
553							# chomp $fhline;
554	50					266	$fhline =~ s/\r?\n$//; # handle DOS on unix files better
555
556	50					82	$line_num++;
557
558							# the order of these checks is important, particularly whether we
559							# check for line_ctr before or after the pattern matching
560							# Prior to PDLA 2.003 the line checks were done BEFORE the
561							# pattern matching
562							#
563							# need this first check, even with it almost repeated at end of loop,
564							# incase the pattern matching excludes $line_num == $line_end, say
565	50	50	33			111	last if defined($line_end) and $line_num > $line_end;
566	50	50	33			165	next if defined($line_start) and $line_num < $line_start;
567	50	100	100			269	next if $options->{EXCLUDE} and $fhline =~ /$options->{EXCLUDE}/;
568	43	100	100			152	next if $options->{INCLUDE} and not $fhline =~ /$options->{INCLUDE}/;
569	37	50				75	next unless ++$line_ctr == $line_step;
570	37					49	$line_ctr = 0;
571
572	37					108	$index++;
573	37	100				127	my @v = defined($usecolsep) ? split($usecolsep,$fhline) : split(' ',$fhline);
574
575							# map empty fields '' to undef value
576	37	100				69	@v = map { $_ eq '' ? undef : $_ } @v;
	82					215
577
578							# if the first line, set up the output piddles using all the columns
579							# if the user doesn't specify anything
580	37	100				79	if ( $index == 0 ) {
581
582							# Handle implicit multicolumns in command line
583	10	100				22	if ($#explicit_cols < 0) { # implicit single col data
584	3					8	@explicit_cols = ( 0 .. $#v );
585							}
586	10	100	66			38	if (scalar(@explicit_cols)==1 and ref($explicit_cols[0]) eq "ARRAY") {
587	1	50				2	if ( !scalar(@{$explicit_cols[0]}) ) { # implicit multi-col data
	1					3
588	1					4	@explicit_cols = ( [ 0 .. $#v ] );
589							}
590							}
591	10					18	my $implicit_pdls = 0;
592	10					14	my $is_explicit = {};
593	10					20	foreach my $col (@explicit_cols) {
594	19	100				35	if (ref($col) eq "ARRAY") {
595	1	50				3	$implicit_pdls++ if !scalar(@$col);
596							} else {
597	18					41	$is_explicit->{$col} = 1;
598							}
599							}
600	10	50				24	if ($implicit_pdls > 1) {
601	0					0	die "rcols: only one implicit multicolumn piddle spec allowed, found $implicit_pdls!\n";
602							}
603	10					16	foreach my $col (@explicit_cols) {
604	19	50	66			54	if (ref($col) eq "ARRAY" and !scalar(@$col)) {
605	0					0	@$col = grep { !$is_explicit->{$_} } ( 0 .. $#v );
	0					0
606							}
607							}
608
609							# remove declared perl columns from pdl data list
610	10					13	$k = 0;
611	10					18	my @pdl_cols = ();
612	10					13	foreach my $col (@explicit_cols) {
613							# strip out declared perl cols so they won't be read into piddles
614	19	100				51	if ( ref($col) eq "ARRAY" ) {
		50
615	1					2	@$col = grep { !$is_perl_col[$_] } @{$col};
	3					9
	1					2
616	1					10	push @pdl_cols, [ @{$col} ];
	1					11
617							} elsif (!$is_perl_col[$col]) {
618	18					36	push @pdl_cols, $col;
619							}
620							}
621							# strip out perl cols in explicit col list for return at end
622	10					13	@end_perl_cols = @perl_cols;
623	10					21	foreach my $col (@explicit_cols) {
624	19	50	66			64	if ( ref($col) ne "ARRAY" and defined($is_perl_col[$col]) ) {
625	0					0	@end_perl_cols = grep { $_ != $col } @end_perl_cols;
	0					0
626							}
627							};
628
629							# sort out the types of the piddles
630	10					33	my @types = _handle_types( $#pdl_cols, $$options{DEFTYPE}, $$options{TYPES} );
631	10	50				23	if ( $options->{VERBOSE} ) { # dbg aid
632	0					0	print "Reading data into piddles of type: [ ";
633	0					0	foreach my $t ( @types ) {
634	0					0	print $t->shortctype() . " ";
635							}
636	0					0	print "]\n";
637							}
638
639	10					15	$k = 0;
640	10					18	for (@explicit_cols) {
641							# Using mixed list+piddle data structure for performance tradeoff
642							# between memory usage (perl list) and speed of IO (PDLA operations)
643	19	100				37	if (ref($_) eq "ARRAY") {
644							# use multicolumn piddle here
645	1					3	push @ret, [ $class->zeroes($types[$k++],scalar(@{$_}),1), [] ];
	1					8
646							} else {
647	18	50				99	push @ret, ($is_perl_col[$_] ? [ [], [] ] : [ $class->zeroes($types[$k],1), [] ]);
648	18	50				56	$k++ unless $is_perl_col[$_];
649							}
650							}
651	10					18	for (@end_perl_cols) { push @ret, [ [], [] ]; }
	0					0
652
653	10					29	$line_store = [ $class->zeroes(long,1), [] ]; # only need to store integers
654							}
655
656							# if necessary, extend PDLA in buffered manner
657	37					63	$k = 0;
658	37	100				70	if ( $pdlsize < $index ) {
659	9					17	for (@ret, $line_store) { _ext_lastD( $_->[0], $extend ); }
	26					60
660	9					14	$pdlsize += $extend;
661							}
662
663							# - stick perl arrays onto end of $ret
664	37					50	$k = 0;
665	37					69	for (@explicit_cols, @end_perl_cols) {
666	69	100				119	if (ref($_) eq "ARRAY") {
667	5					6	push @{ $ret[$k++]->[1] }, [ @v[ @$_ ] ];
	5					19
668							} else {
669	64					80	push @{ $ret[$k++]->[1] }, $v[$_];
	64					155
670							}
671							}
672
673							# store the line number
674	37					53	push @{$line_store->[1]}, $line_num;
	37					55
675
676							# need to burp out list if needed
677	37	100				84	if ( $index >= $nextburpindex ) {
678	10					18	for (@ret, $line_store) { _burp_1D($_,$index); }
	29					65
679	10					17	$nextburpindex = $index + $chunksize;
680							}
681
682							# Thanks to Frank Samuelson for this
683	37	50	33			231	last if defined($line_end) and $line_num == $line_end;
684							}
685
686							}
687
688	11	100				104	close($fh) unless $is_handle;
689
690							# burp one final time if needed and
691							# clean out additional ARRAY ref level for @ret
692	11					31	for (@ret, $line_store) {
693	30	100	100			70	_burp_1D($_,$index) if defined $_ and scalar @{$_->[1]};
	29					120
694	30					91	$_ = $_->[0];
695							}
696
697							# have we read anything in? if not, return empty piddles
698	11	100				25	if ( $index == -1 ) {
699	1	50				4	print "Warning: rcols() did not read in any data.\n" if $options->{VERBOSE};
700	1	50				4	if ( wantarray ) {
701	0					0	foreach ( 0 .. $#explicit_cols ) {
702	0	0				0	if ( $is_perl_col[$_] ) {
703	0					0	$ret[$_] = PDLA->null;
704							} else {
705	0					0	$ret[$_] = [];
706							}
707							}
708	0					0	for ( @end_perl_cols ) { push @ret, []; }
	0					0
709	0					0	return ( @ret );
710							} else {
711	1					6	return PDLA->null;
712							}
713							}
714
715							# if the user has asked for lines => 0:-1 or 0:10 or 1:10 or 1:-1,
716							# - ie not reversed and the last line number is known -
717							# then we can skip the following nastiness
718	10	50	66			51	if ( $line_rev == 0 and $index_start >= 0 and $index_end >= -1 ) {
			66
719	9					16	for (@ret) {
720							## $_ = $_->mv(-1,0)->slice("0:${index}")->mv(0,-1) unless ref($_) eq 'ARRAY';
721	17	50				131	$_ = $_->mv(-1,0)->slice("0:${index}") unless ref($_) eq 'ARRAY'; # cols are dim(0)
722							};
723	9	50				28	if ( $options->{VERBOSE} ) {
724	0	0				0	if ( ref($ret[0]) eq 'ARRAY' ) {
725	0					0	print "Read in ", scalar( @{ $ret[0] } ), " elements.\n";
	0					0
726							} else {
727	0					0	print "Read in ", $ret[0]->nelem, " elements.\n";
728							}
729							}
730	9	100				193	wantarray ? return(@ret) : return $ret[0];
731							}
732
733							# Work out which line numbers we want. First we clean up the piddle
734							# containing the line numbers that have been read in
735	1					6	$line_store = $line_store->slice("0:${index}");
736
737							# work out the min/max line numbers required
738	1	50				4	if ( $line_rev ) {
739	1	50	33			7	if ( defined($line_start) and defined($line_end) ) {
		50
740	0					0	my $dummy = $line_start;
741	0					0	$line_start = $line_end;
742	0					0	$line_end = $dummy;
743							} elsif ( defined($line_start) ) {
744	1					3	$line_end = $line_start;
745							} else {
746	0					0	$line_start = $line_end;
747							}
748							}
749	1	50				3	$line_start = $line_num + 1 + $index_start if $index_start < 0;
750	1	50				4	$line_end = $line_num + 1 + $index_end if $index_end < 0;
751
752	1					2	my $indices;
753
754	17			17		151	{ no warnings 'precedence';
	17					53
	17					42394
	1					2
755	1	50				3	if ( $line_rev ) {
756	1					141	$indices = which( $line_store >= $line_end & $line_store <= $line_start )->slice('-1:0');
757							} else {
758	0					0	$indices = which( $line_store >= $line_start & $line_store <= $line_end );
759							}
760							}
761
762							# truncate the piddles
763	1					12	for my $col ( @explicit_cols ) {
764	2	50				7	if ( ref($col) eq "ARRAY" ) {
765	0					0	for ( @$col ) {
766	0					0	$ret[$_] = $ret[$_]->index($indices);
767							}
768							} else {
769	2	50				18	$ret[$col] = $ret[$col]->index($indices) unless $is_perl_col[$col] };
770							}
771
772							# truncate/reverse/etc the perl arrays
773	1					5	my @indices_array = list $indices;
774	1					3	foreach ( @explicit_cols, @end_perl_cols ) {
775	2	50				6	if ( $is_perl_col[$_] ) {
776	0					0	my @temp = @{ $ret[$_] };
	0					0
777	0					0	$ret[$_] = [];
778	0					0	foreach my $i ( @indices_array ) { push @{ $ret[$_] }, $temp[$i] };
	0					0
	0					0
779							}
780							}
781
782							# print some diagnostics
783	1	50				3	if ( $options->{VERBOSE} ) {
784	0					0	my $done = 0;
785	0					0	foreach my $col (@explicit_cols) {
786	0	0				0	last if $done;
787	0	0				0	next if $is_perl_col[$col];
788	0					0	print "Read in ", $ret[$col]->nelem, " elements.\n";
789	0					0	$done = 1;
790							}
791	0					0	foreach my $col (@explicit_cols, @end_perl_cols) {
792	0	0				0	last if $done;
793	0					0	print "Read in ", $ret[$col]->nelem, " elements.\n";
794	0					0	$done = 1;
795							}
796							}
797
798							# fix 2D pdls to match what wcols generates
799	1					3	foreach my $col (@ret) {
800	2	50				7	next if ref($col) eq "ARRAY";
801	2	50				44	$col = $col->mv(0,1) if $col->ndims == 2;
802							}
803
804	1	50				25	wantarray ? return(@ret) : return $ret[0];
805							}
806
807
808							=head2 wcols
809
810							=for ref
811
812							Write ASCII columns into file from 1D or 2D piddles and/or 1D listrefs efficiently.
813
814							Can take file name or *HANDLE, and if no file/filehandle is given defaults to STDOUT.
815
816							Options (case insensitive):
817
818							HEADER - prints this string before the data. If the string
819							is not terminated by a newline, one is added. (default B<''>).
820
821							COLSEP - prints this string between columns of data. Defaults to
822							$PDLA::IO::Misc::defcolsep.
823
824							FORMAT - A printf-style format string that is cycled through
825							column output for user controlled formatting.
826
827							=for usage
828
829							Usage: wcols $data1, $data2, $data3,..., *HANDLE\|"outfile", [\%options]; # or
830							wcols $format_string, $data1, $data2, $data3,..., *HANDLE\|"outfile", [\%options];
831
832							where the $dataN args are either 1D piddles, 1D perl array refs,
833							or 2D piddles (as might be returned from rcols() with the [] column
834							syntax and/or using the PERLCOLS option). dim(0) of all piddles
835							written must be the same size. The printf-style $format_string,
836							if given, overrides any FORMAT key settings in the option hash.
837
838							e.g.,
839
840							=for example
841
842							$x = random(4); $y = ones(4);
843							wcols $x, $y+2, 'foo.dat';
844							wcols $x, $y+2, *STDERR;
845							wcols $x, $y+2, '\|wc';
846
847							$x = sequence(3); $y = zeros(3); $c = random(3);
848							wcols $x,$y,$c; # Orthogonal version of 'print $x,$y,$c' :-)
849
850							wcols "%10.3f", $x,$y; # Formatted
851							wcols "%10.3f %10.5g", $x,$y; # Individual column formatting
852
853							$x = sequence(3); $y = zeros(3); $units = [ 'm/sec', 'kg', 'MPH' ];
854							wcols $x,$y, { HEADER => "# x y" };
855							wcols $x,$y, { Header => "# x y", Colsep => ', ' }; # case insensitive option names!
856							wcols " %4.1f %4.1f %s",$x,$y,$units, { header => "# Day Time Units" };
857
858							$a52 = sequence(5,2); $y = ones(5); $c = [ 1, 2, 4 ];
859							wcols $a52; # now can write out 2D pdls (2 columns data in output)
860							wcols $y, $a52, $c # ...and mix and match with 1D listrefs as well
861
862							NOTES:
863
864							1. Columns are separated by whitespace by default, use
865							C<$PDLA::IO::Misc::defcolsep> to modify the default value or
866							the COLSEP option
867
868							2. Support for the C<$PDLA::IO::Misc::colsep> global value
869							of PDLA-2.4.6 and earlier is maintained but the initial value
870							of the global is undef until you set it. The value will be
871							then be picked up and used as if defcolsep were specified.
872
873							3. Dim 0 corresponds to the column data dimension for both
874							rcols and wcols. This makes wcols the reverse operation
875							of rcols.
876
877							=cut
878
879							*wcols = \&PDLA::wcols;
880
881							sub PDLA::wcols {
882	4	50		4	0	3123	barf 'Usage: wcols($optional_format_string, 1_or_2D_pdls, *HANDLE\|"filename", [\%options])' if @_<1;
883
884							# handle legacy colsep variable
885	4	50				15	$usecolsep = (defined $colsep) ? $colsep : $defcolsep;
886
887							# if last argument is a reference to a hash, parse the options
888	4					11	my ($format_string, $step, $fh);
889	4					0	my $header;
890	4	100				13	if ( ref( $_[-1] ) eq "HASH" ) {
891	2					4	my $opt = pop;
892	2					7	foreach my $key ( keys %$opt ) {
893	2	50				16	if ( $key =~ /^H/i ) { $header = $opt->{$key}; } # option: HEADER
	0	50				0
		50
894	0					0	elsif ( $key =~ /^COLSEP/i ) { $usecolsep = $opt->{$key}; } # option: COLSEP
895	2					7	elsif ( $key =~ /^FORMAT/i ) { $format_string = $opt->{$key}; } # option: FORMAT
896							else {
897	0					0	print "Warning: wcols does not understand option <$key>.\n";
898							}
899							}
900							}
901	4	100	100			21	if (ref(\$_[0]) eq "SCALAR" \|\| $format_string) {
902	3	100				9	$format_string = shift if (ref(\$_[0]) eq "SCALAR");
903							# 1st arg not piddle, explicit format string overrides option hash FORMAT
904	3					5	$step = $format_string;
905	3					22	$step =~ s/(%%\|[^%])//g; # use step to count number of format items
906	3					6	$step = length ($step);
907							}
908	4					8	my $file = $_[-1];
909	4					5	my $file_opened;
910	4		33			31	my $is_handle = !UNIVERSAL::isa($file,'PDLA') &&
911							!UNIVERSAL::isa($file,'ARRAY') &&
912							_is_io_handle $file;
913	4	50				10	if ($is_handle) { # file handle passed directly
914	4					7	$fh = $file; pop;
	4					6
915							}
916							else{
917	0	0				0	if (ref(\$file) eq "SCALAR") { # Must be a file name
918	0					0	$fh = gensym;
919	0	0				0	if (!$is_handle) {
920	0	0	0			0	$file = ">$file" unless $file =~ /^\\|/ or $file =~ /^\>/;
921	0	0				0	open $fh, $file or barf "File $file can not be opened for writing\n";
922							}
923	0					0	pop;
924	0					0	$file_opened = 1;
925							}
926							else{ # Not a filehandle or filename, assume something else
927							# (probably piddle) and send to STDOUT
928	0					0	$fh = *STDOUT;
929							}
930							}
931
932	4					11	my @p = @_;
933	4	50				32	my $n = (ref $p[0] eq 'ARRAY') ? $#{$p[0]}+1 : $p[0]->dim(0);
	0					0
934	4					7	my @dogp = (); # need to break 2D pdls into a their 1D pdl components
935	4					9	for (@p) {
936	8	50				18	if ( ref $_ eq 'ARRAY' ) {
937	0	0				0	barf "wcols: 1D args must have same number of elements\n" if scalar(@{$_}) != $n;
	0					0
938	0					0	push @dogp, $_;
939							} else {
940	8	50	33			38	barf "wcols: 1D args must have same number of elements\n" if $_->dim(0) != $n or $_->getndims > 2;
941	8	50				20	if ( $_->getndims == 2 ) {
942	0					0	push @dogp, $_->dog;
943							} else {
944	8					14	push @dogp, $_;
945							}
946							}
947							}
948	4	50				10	if ( defined $header ) {
949	0	0				0	$header .= "\n" unless $header =~ m/\n$/;
950	0					0	print $fh $header;
951							}
952	4					7	my $i;
953	4					6	my $pcnt = scalar @dogp;
954	4					12	for ($i=0; $i<$n; $i++) {
955	16	100				28	if ($format_string) {
956	12					17	my @d;
957	12					16	my $pdone = 0;
958	12					18	for (@dogp) {
959	24					41	push @d,_at_1D($_,$i); $pdone++;
	24					37
960	24	100				47	if (@d == $step) {
961	12					46	printf $fh $format_string,@d;
962	12	50				25	printf $fh $usecolsep unless $pdone==$pcnt;
963	12					35	$#d = -1;
964							}
965							}
966	12	50	33			31	if (@d && !$i) {
967	0					0	my $str;
968	0	0				0	if ($#dogp>0) {
969	0					0	$str = ($#dogp+1).' columns don\'t';
970							} else {
971	0					0	$str = '1 column doesn\'t';
972							}
973	0					0	$str .= " fit in $step column format ".
974							'(even repeated) -- discarding surplus';
975	0					0	carp $str;
976							# printf $fh $format_string,@d;
977							# printf $fh $usecolsep;
978							}
979							} else {
980	4					5	my $pdone = 0;
981	4					6	for (@dogp) {
982	8					12	$pdone++;
983	8	100				12	print $fh _at_1D($_,$i) . ( ($pdone==$pcnt) ? '' : $usecolsep );
984							}
985							}
986	16					38	print $fh "\n";
987							}
988	4	50				7	close($fh) if $file_opened;
989	4					13	return 1;
990							}
991
992							=head2 swcols
993
994							=for ref
995
996							generate string list from C format specifier and a list of piddles
997
998							C takes an (optional) format specifier of the printf
999							sort and a list of 1D piddles as input. It returns a perl
1000							array (or array reference if called in scalar context)
1001							where each element of the array is the string generated by
1002							printing the corresponding element of the piddle(s) using
1003							the format specified. If no format is specified it uses the
1004							default print format.
1005
1006							=for usage
1007
1008							Usage: @str = swcols format, pdl_1,pdl_2,pdl_3,...;
1009							or $str = swcols format, pdl_1,pdl_2,pdl_3,...;
1010
1011							=cut
1012
1013							*swcols = \&PDLA::swcols;
1014
1015							sub PDLA::swcols{
1016	0			0	0	0	my ($format_string,$step);
1017
1018	0					0	my @outlist;
1019
1020	0	0				0	if (ref(\$_[0]) eq "SCALAR") {
1021	0					0	$step = $format_string = shift; # 1st arg not piddle
1022	0					0	$step =~ s/(%%\|[^%])//g; # use step to count number of format items
1023	0					0	$step = length ($step);
1024							}
1025
1026	0					0	my @p = @_;
1027	0	0				0	my $n = (ref $p[0] eq 'ARRAY') ? $#{$p[0]}+1 : $p[0]->nelem;
	0					0
1028	0					0	for (@p) {
1029	0	0				0	if ( ref $_ eq 'ARRAY' ) {
1030	0	0				0	barf "swcols: 1D args must have same number of elements\n" if scalar(@{$_}) != $n;
	0					0
1031							} else {
1032	0	0	0			0	barf "swcols: 1D args must have same number of elements\n" if $_->nelem != $n or $_->getndims!=1;
1033							}
1034							}
1035
1036	0					0	my $i;
1037	0					0	for ($i=0; $i<$n; $i++) {
1038	0	0				0	if ($format_string) {
1039	0					0	my @d;
1040	0					0	for (@p) {
1041	0					0	push @d,_at_1D($_,$i);
1042	0	0				0	if (@d == $step) {
1043	0					0	push @outlist,sprintf $format_string,@d;
1044	0					0	$#d = -1;
1045							}
1046							}
1047	0	0	0			0	if (@d && !$i) {
1048	0					0	my $str;
1049	0	0				0	if ($#p>0) {
1050	0					0	$str = ($#p+1).' columns don\'t';
1051							} else {
1052	0					0	$str = '1 column doesn\'t';
1053							}
1054	0					0	$str .= " fit in $step column format ".
1055							'(even repeated) -- discarding surplus';
1056	0					0	carp $str;
1057							# printf $fh $format_string,@d;
1058							# printf $fh $usecolsep;
1059							}
1060							} else {
1061	0					0	for (@p) {
1062	0					0	push @outlist,sprintf _at_1D($_,$i),$usecolsep;
1063							}
1064							}
1065							}
1066	0	0				0	wantarray ? return @outlist: return \@outlist;
1067							}
1068
1069
1070							=head2 rgrep
1071
1072							=for ref
1073
1074							Read columns into piddles using full regexp pattern matching.
1075
1076
1077							Options:
1078
1079							UNDEFINED: This option determines what will be done for undefined
1080							values. For instance when reading a comma-separated file of the type
1081							C<1,2,,4> where the C<,,> indicates a missing value.
1082
1083							The default value is to assign C<$PDLA::undefval> to undefined values,
1084							but if C is set this is used instead. This would normally
1085							be set to a number, but if it is set to C and PDLA is compiled
1086							with Badvalue support (see L) then undefined values are set to
1087							the appropriate badvalue and the column is marked as bad.
1088
1089							DEFTYPE: Sets the default type of the columns - see the documentation for
1090							L
1091
1092							TYPES: A reference to a Perl array with types for each column - see
1093							the documentation for L
1094
1095							BUFFERSIZE: The number of lines to extend the piddle by. It might speed
1096							up the reading a little bit by setting this to the number of lines in the
1097							file, but in general L is a better choice
1098
1099							Usage
1100
1101							=for usage
1102
1103							($x,$y,...) = rgrep(sub, *HANDLE\|"filename")
1104
1105							e.g.
1106
1107							=for example
1108
1109							($x,$y) = rgrep {/Foo (.) Bar (.) Mumble/} $file;
1110
1111							i.e. the vectors C<$x> and C<$y> get the progressive values
1112							of C<$1>, C<$2> etc.
1113
1114							=cut
1115
1116							sub rgrep (&@) {
1117	1	50		1	1	916	barf 'Usage ($x,$y,...) = rgrep(sub, *HANDLE\|"filename", [{OPTIONS}])'
1118							if $#_ > 2;
1119
1120	1					4	my (@ret,@v,$nret); my ($m,$n)=(-1,0); # Count/PDLA size
	1					4
1121	1					2	my $pattern = shift;
1122
1123	1					3	my $is_handle = _is_io_handle $_[0];
1124	1	50				6	my $fh = $is_handle ? $_[0] : gensym;
1125	1	50	0			3	open $fh, $_[0] or die "File $_[0] not found\n" unless $is_handle;
1126
1127	1	50				4	if (ref($pattern) ne "CODE") {
1128	0					0	die "Got a ".ref($pattern)." for rgrep?!";
1129							}
1130
1131
1132							# set up default options
1133	1					13	my $opt = new PDLA::Options( {
1134							DEFTYPE => $deftype,
1135							TYPES => [],
1136							UNDEFINED => $PDLA::undefval,
1137							BUFFERSIZE => 10000
1138							} );
1139							# Check if the user specified options
1140	1		50			9	my $u_opt = $_[1] \|\| {};
1141	1					4	$opt->options( $u_opt);
1142
1143	1					3	my $options = $opt->current();
1144
1145							# If UNDEFINED is set to .bad. then undefined are set to
1146							# bad - unless we have a Perl that is not compiled with Bad support
1147	1					3	my $undef_is_bad = ($$options{UNDEFINED} =~ /bad/i);
1148	1	50	33			5	if ($undef_is_bad && !$PDLA::Bad::Status) {
1149	0					0	carp "UNDEFINED cannot be set to Badvalue when PDLA hasn't been compiled with Bad value support - \$PDLA::undefval used instead\n";
1150	0					0	$undef_is_bad = 0;
1151							}
1152							barf "Unknown PDLA type given for DEFTYPE.\n"
1153	1	50				5	unless ref($$options{DEFTYPE}) eq "PDLA::Type";
1154
1155
1156	1					17	while(<$fh>) {
1157	5	50				14	next unless @v = &$pattern;
1158
1159	5					43	$m++; # Count got
1160	5	100				13	if ($m==0) {
1161	1					3	$nret = $#v; # Last index of values to return
1162
1163							# Handle various columns as in rcols - added 18/04/05
1164	1					6	my @types = _handle_types( $nret, $$options{DEFTYPE}, $$options{TYPES} );
1165	1					6	for (0..$nret) {
1166							# Modified 18/04/05 to use specified precision.
1167	2					10	$ret[$_] = [ PDLA->zeroes($types[$_], 1), [] ];
1168							}
1169							} else { # perhaps should only carp once...
1170	4	50				9	carp "Non-rectangular rgrep" if $nret != $#v;
1171							}
1172	5	100				11	if ($n<$m) {
1173	1					3	for (0..$nret) {
1174	2					6	_ext_lastD( $ret[$_]->[0], $$options{BUFFERSIZE} ); # Extend PDLA in buffered manner
1175							}
1176	1					3	$n += $$options{BUFFERSIZE};
1177							}
1178	5					13	for(0..$nret) {
1179							# Set values - '1*' is to ensure numeric
1180							# We now (JB - 18/04/05) also check for defined values or not
1181							# Ideally this should include Badvalue support..
1182	10	50				20	if ($v[$_] eq '') {
1183							# Missing value - let us treat this specially
1184	0	0				0	if ($undef_is_bad) {
1185	0					0	set $ret[$_]->[0], $m, $$options{DEFTYPE}->badvalue();
1186							# And set bad flag on $ref[$_]!
1187	0					0	$ret[$_]->[0]->badflag(1);
1188							} else {
1189	0					0	set $ret[$_]->[0], $m, $$options{UNDEFINED};
1190							}
1191							} else {
1192	10					27	set $ret[$_]->[0], $m, 1*$v[$_];
1193							}
1194							}
1195							}
1196
1197	1	50				6	close($fh) unless $is_handle;
1198	1					3	for (@ret) { $_ = $_->[0]->slice("0:$m")->copy; }; # Truncate
	2					8
1199	1	50				14	wantarray ? return(@ret) : return $ret[0];
1200							}
1201
1202
1203							=head2 rdsa
1204
1205							=for ref
1206
1207							Read a FIGARO/NDF format file.
1208
1209							Requires non-PDLA DSA module. Contact Frossie (frossie@jach.hawaii.edu)
1210
1211							Usage:
1212
1213							=for usage
1214
1215							([$xaxis],$data) = rdsa($file)
1216
1217							=for example
1218
1219							$x = rdsa 'file.sdf'
1220
1221							Not yet tested with PDLA-1.9X versions
1222
1223							=cut
1224
1225	0			0	1	0	sub rdsa{PDLA->rdsa(@_)}
1226
1227	17			17		175	use vars qw/ $dsa_loaded /;
	17					51
	17					8694
1228							sub PDLA::rdsa {
1229	0			0	0	0	my $class = shift;
1230	0	0				0	barf 'Usage: ([$xaxis],$data) = rdsa($file)' if $#_!=0;
1231	0					0	my $file = shift; my $pdl = $class->new; my $xpdl;
	0					0
	0					0
1232	0	0				0	eval 'use DSA' unless $dsa_loaded++;
1233	0	0				0	barf 'Cannot use DSA library' if $@ ne "";
1234
1235	0					0	my $status = 0;
1236
1237							# Most of this stuff stolen from Frossie:
1238
1239	0					0	dsa_open($status);
1240	0					0	dsa_named_input('IMAGE',$file,$status);
1241	0	0				0	goto skip if $status != 0;
1242
1243	0					0	dsa_get_range('IMAGE',my $vmin,my $vmax,$status);
1244	0					0	my @data_dims;
1245	0					0	dsa_data_size('IMAGE',5, my $data_ndims, \@data_dims, my $data_elements,
1246							$status);
1247	0					0	dsa_map_data('IMAGE','READ','FLOAT',my $data_address,my $data_slot,
1248							$status);
1249
1250	0					0	@data_dims = @data_dims[0..$data_ndims-1];
1251	0	0				0	print "Dims of $file = @data_dims\n" if $PDLA::verbose;
1252	0					0	$pdl->set_datatype($PDLA_F);
1253	0					0	$pdl->setdims([@data_dims]);
1254	0					0	my $dref = $pdl->get_dataref;
1255	0					0	mem2string($data_address,4*$data_elements,$$dref);
1256	0					0	$pdl->upd_data();
1257
1258	0	0				0	if (wantarray) { # Map X axis values
1259	0					0	my @axis_dims;
1260	0					0	dsa_axis_size('IMAGE',1,5, my $axis_ndims, \@axis_dims,
1261							my $axis_elements, $status);
1262	0					0	dsa_map_axis_data('IMAGE',1,'READ','FLOAT',my $axis_address,
1263							my $axis_slot,$status);
1264	0					0	@axis_dims = @axis_dims[0..$axis_ndims-1];
1265	0					0	$xpdl = $class->new;
1266	0					0	$xpdl->set_datatype($PDLA_F);
1267	0					0	$xpdl->setdims([@axis_dims]);
1268	0					0	my $xref = $xpdl->get_dataref;
1269	0					0	mem2string($axis_address,4*$axis_elements,$$xref);
1270	0					0	$xpdl->upd_data();
1271							}
1272
1273	0					0	skip: dsa_close($status);
1274
1275	0	0				0	barf("rdsa: obtained DSA error") if $status != 0;
1276
1277	0					0	return ($xpdl,$pdl);
1278							}
1279
1280							=head2 isbigendian
1281
1282							=for ref
1283
1284							Determine endianness of machine - returns 0 or 1 accordingly
1285
1286							=cut
1287
1288
1289
1290	66			66	0	259	sub PDLA::isbigendian { return 0; };
1291							*isbigendian = \&PDLA::isbigendian;
1292
1293
1294
1295
1296							=head2 rasc
1297
1298							=for ref
1299
1300							Simple function to slurp in ASCII numbers quite quickly,
1301							although error handling is marginal (to nonexistent).
1302
1303							=for usage
1304
1305							$pdl->rasc("filename"\|FILEHANDLE [,$noElements]);
1306
1307							Where:
1308							filename is the name of the ASCII file to read or open file handle
1309							$noElements is the optional number of elements in the file to read.
1310							(If not present, all of the file will be read to fill up $pdl).
1311							$pdl can be of type float or double (for more precision).
1312
1313							=for example
1314
1315							# (test.num is an ascii file with 20 numbers. One number per line.)
1316							$in = PDLA->null;
1317							$num = 20;
1318							$in->rasc('test.num',20);
1319							$imm = zeroes(float,20,2);
1320							$imm->rasc('test.num');
1321
1322							=cut
1323
1324	0			0	1	0	sub rasc {PDLA->rasc(@_)}
1325							sub PDLA::rasc {
1326	17			17		9257	use IO::File;
	17					30455
	17					9281
1327	3			3	0	31	my ($pdl, $file, $num) = @_;
1328	3	100				9	$num = -1 unless defined $num;
1329	3					5	my $fi = $file;
1330	3	50				23	my $is_openhandle = defined fileno $fi ? 1 : 0;
1331	3	50				7	unless ($is_openhandle) {
1332	3	50	33			14	barf 'usage: rasc $pdl, "filename"\|FILEHANDLE, [$num_to_read]'
1333							if !defined $file \|\| ref $file;
1334	3	100				23	$fi = new IO::File "<$file" or barf "Can't open $file";
1335							}
1336	2					174	$pdl->_rasc(my $ierr=null,$num,$fi);
1337	2	50				28	close $fi unless $is_openhandle;
1338	2					12	return all $ierr > 0;
1339							}
1340
1341							# ----------------------------------------------------------
1342
1343							=head2 rcube
1344
1345							=for ref
1346
1347							Read list of files directly into a large data cube (for efficiency)
1348
1349							=for usage
1350
1351							$cube = rcube \&reader_function, @files;
1352
1353							=for example
1354
1355							$cube = rcube \&rfits, glob("*.fits");
1356
1357							This IO function allows direct reading of files into a large data cube,
1358							Obviously one could use cat() but this is more memory efficient.
1359
1360							The reading function (e.g. rfits, readfraw) (passed as a reference)
1361							and files are the arguments.
1362
1363							The cube is created as the same X,Y dims and datatype as the first
1364							image specified. The Z dim is simply the number of images.
1365
1366							=cut
1367
1368							sub rcube {
1369
1370	0			0	1		my $reader = shift;
1371
1372	0	0					barf "Usage: blah" unless ref($reader) eq "CODE";
1373
1374	0						my $k=0;
1375	0						my ($im,$cube,$tmp,$nx,$ny);
1376	0						my $nz = scalar(@_);
1377
1378	0						for my $file (@_) {
1379	0	0					print "Slice ($k) - reading file $file...\n" if $PDLA::verbose;
1380	0						$im = &$reader($file);
1381	0						($nx, $ny) = dims $im;
1382	0	0					if ($k == 0) {
1383	0	0					print "Creating $nx x $ny x $nz cube...\n" if $PDLA::verbose;
1384	0						$cube = $im->zeroes($im->type,$nx,$ny,$nz);
1385							}
1386							else {
1387	0	0	0				barf "Dimensions do not match for file $file!\n" if
1388							$im->getdim(0) != $nx or $im->getdim(1) != $ny ;
1389
1390							}
1391	0						$tmp = $cube->slice(":,:,($k)");
1392	0						$tmp .= $im;
1393	0						$k++;
1394							}
1395
1396	0						return $cube;
1397							}
1398
1399
1400
1401
1402
1403
1404							*_rasc = \&PDLA::_rasc;
1405
1406
1407
1408							;
1409
1410
1411							=head1 AUTHOR
1412
1413							Copyright (C) Karl Glazebrook 1997, Craig DeForest 2001,
1414							2003, and Chris Marshall 2010. All rights reserved. There is
1415							no warranty. You are allowed to redistribute this software
1416							/ documentation under certain conditions. For details, see
1417							the file COPYING in the PDLA distribution. If this file is
1418							separated from the PDLA distribution, the copyright notice
1419							should be included in the file.
1420
1421							=cut
1422
1423
1424
1425
1426
1427							# Exit with OK status
1428
1429							1;
1430
1431