/[Biblio-Isis]/trunk/lib/Biblio/Isis.pm
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trunk/IsisDB.pm revision 16 by dpavlin, Thu Dec 30 17:16:34 2004 UTC trunk/lib/Biblio/Isis.pm revision 62 by dpavlin, Mon Jul 10 12:01:04 2006 UTC
# Line 1  Line 1 
1  package IsisDB;  package Biblio::Isis;
2  use strict;  use strict;
3    
4  use Carp;  use Carp;
5  use Data::Dumper;  use File::Glob qw(:globally :nocase);
6    
7  BEGIN {  BEGIN {
8          use Exporter ();          use Exporter ();
9          use vars qw ($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS);          use vars qw ($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS);
10          $VERSION     = 0.06;          $VERSION     = 0.22_2;
11          @ISA         = qw (Exporter);          @ISA         = qw (Exporter);
12          #Give a hoot don't pollute, do not export more than needed by default          #Give a hoot don't pollute, do not export more than needed by default
13          @EXPORT      = qw ();          @EXPORT      = qw ();
# Line 18  BEGIN { Line 18  BEGIN {
18    
19  =head1 NAME  =head1 NAME
20    
21  IsisDB - Read CDS/ISIS, WinISIS and IsisMarc database  Biblio::Isis - Read CDS/ISIS, WinISIS and IsisMarc database
22    
23  =head1 SYNOPSIS  =head1 SYNOPSIS
24    
25    use IsisDB;    use Biblio::Isis;
26    
27    my $isis = new IsisDB(    my $isis = new Biblio::Isis(
28          isisdb => './cds/cds',          isisdb => './cds/cds',
29    );    );
30    
31    for(my $mfn = 1; $mfn <= $isis->{'maxmfn'}; $mfn++) {    for(my $mfn = 1; $mfn <= $isis->count; $mfn++) {
32          print $isis->to_ascii($mfn),"\n";          print $isis->to_ascii($mfn),"\n";
33    }    }
34    
35  =head1 DESCRIPTION  =head1 DESCRIPTION
36    
37  This module will read ISIS databases created by DOS CDS/ISIS, WinIsis or  This module will read ISIS databases created by DOS CDS/ISIS, WinIsis or
38  IsisMarc. It can be used as perl-only alternative to OpenIsis module.  IsisMarc. It can be used as perl-only alternative to OpenIsis module which
39    seems to depriciate it's old C<XS> bindings for perl.
40    
41  It can create hash values from data in ISIS database (using C<to_hash>),  It can create hash values from data in ISIS database (using C<to_hash>),
42  ASCII dump (using C<to_ascii>) or just hash with field names and packed  ASCII dump (using C<to_ascii>) or just hash with field names and packed
# Line 48  fields which are zero sized will be fill Line 49  fields which are zero sized will be fill
49  It also has support for identifiers (only if ISIS database is created by  It also has support for identifiers (only if ISIS database is created by
50  IsisMarc), see C<to_hash>.  IsisMarc), see C<to_hash>.
51    
52  This will module will always be slower than OpenIsis module which use C  This module will always be slower than OpenIsis module which use C
53  library. However, since it's written in perl, it's platform independent (so  library. However, since it's written in perl, it's platform independent (so
54  you don't need C compiler), and can be easily modified. I hope that it  you don't need C compiler), and can be easily modified. I hope that it
55  creates data structures which are easier to use than ones created by  creates data structures which are easier to use than ones created by
# Line 78  rarely an issue). Line 79  rarely an issue).
79    
80  Open ISIS database  Open ISIS database
81    
82   my $isis = new IsisDB(   my $isis = new Biblio::Isis(
83          isisdb => './cds/cds',          isisdb => './cds/cds',
84          read_fdt => 1,          read_fdt => 1,
85          include_deleted => 1,          include_deleted => 1,
# Line 87  Open ISIS database Line 88  Open ISIS database
88                  $v =~ s#foo#bar#g;                  $v =~ s#foo#bar#g;
89          },          },
90          debug => 1,          debug => 1,
91            join_subfields_with => ' ; ',
92            regexps => [
93                    's/something/else/g',
94            ],
95   );   );
96    
97  Options are described below:  Options are described below:
# Line 96  Options are described below: Line 101  Options are described below:
101  =item isisdb  =item isisdb
102    
103  This is full or relative path to ISIS database files which include  This is full or relative path to ISIS database files which include
104  common prefix of C<.FDT>, C<.MST>, C<.CNT>, C<.XRF> and C<.MST> files.  common prefix of C<.MST>, and C<.XRF> and optionally C<.FDT> (if using
105    C<read_fdt> option) files.
106    
107  In this example it uses C<./cds/cds.MST> and related files.  In this example it uses C<./cds/cds.MST> and related files.
108    
# Line 115  Filter code ref which will be used befor Line 121  Filter code ref which will be used befor
121    
122  =item debug  =item debug
123    
124  Dump a B<lot> of debugging output.  Dump a B<lot> of debugging output even at level 1. For even more increase level.
125    
126  =back  =item join_subfields_with
127    
128    Define delimiter which will be used to join repeatable subfields. This
129    option is included to support lagacy application written against version
130    older than 0.21 of this module. By default, it disabled. See L</to_hash>.
131    
132    =item regexpes
133    
134  It will also set C<$isis-E<gt>{'maxmfn'}> which is maximum MFN stored in database.  Define (any number) of regexpes to apply at field values before they are
135    splitted into subfield. This is great place to split subfields in input to
136    mulitple subfields if needed or rename subfields.
137    
138    =back
139    
140  =cut  =cut
141    
# Line 134  sub new { Line 150  sub new {
150                  $self->{$v} = {@_}->{$v};                  $self->{$v} = {@_}->{$v};
151          }          }
152    
153            my @isis_files = grep(/\.(FDT|MST|XRF|CNT)$/i,glob($self->{isisdb}."*"));
154    
155            foreach my $f (@isis_files) {
156                    my $ext = $1 if ($f =~ m/\.(\w\w\w)$/);
157                    $self->{lc($ext)."_file"} = $f;
158            }
159    
160            my @must_exist = qw(mst xrf);
161            push @must_exist, "fdt" if ($self->{read_fdt});
162    
163            foreach my $ext (@must_exist) {
164                    unless ($self->{$ext."_file"}) {
165                            carp "missing ",uc($ext)," file in ",$self->{isisdb};
166                            return;
167                    }
168            }
169    
170            if ($self->{debug}) {
171                    print STDERR "## using files: ",join(" ",@isis_files),"\n";
172                    eval "use Data::Dump";
173    
174                    if (! $@) {
175                            *Dumper = *Data::Dump::dump;
176                    } else {
177                            use Data::Dumper;
178                    }
179            }
180    
181          # if you want to read .FDT file use read_fdt argument when creating class!          # if you want to read .FDT file use read_fdt argument when creating class!
182          if ({@_}->{read_fdt} && -e $self->{isisdb}.".FDT") {          if ($self->{read_fdt} && -e $self->{fdt_file}) {
183    
184                  # read the $db.FDT file for tags                  # read the $db.FDT file for tags
185                  my $fieldzone=0;                  my $fieldzone=0;
186    
187                  open(fileFDT, $self->{isisdb}.".FDT") || croak "can't read '$self->{isisdb}.FDT': $!";                  open(my $fileFDT, $self->{fdt_file}) || croak "can't read '$self->{fdt_file}': $!";
188                    binmode($fileFDT);
189    
190                  while (<fileFDT>) {                  while (<$fileFDT>) {
191                          chomp;                          chomp;
192                          if ($fieldzone) {                          if ($fieldzone) {
193                                  my $name=substr($_,0,30);                                  my $name=substr($_,0,30);
# Line 159  sub new { Line 204  sub new {
204                          }                          }
205                  }                  }
206                                    
207                  close(fileFDT);                  close($fileFDT);
208          }          }
209    
210          # Get the Maximum MFN from $db.MST          # Get the Maximum MFN from $db.MST
211    
212          open(fileMST,$self->{isisdb}.".MST") || croak "can't read '$self->{isisdb}.MST': $!";          open($self->{'fileMST'}, $self->{mst_file}) || croak "can't open '$self->{mst_file}': $!";
213            binmode($self->{'fileMST'});
214    
215          # MST format:   (* = 32 bit signed)          # MST format:   (* = 32 bit signed)
216          # CTLMFN*       always 0          # CTLMFN*       always 0
# Line 172  sub new { Line 218  sub new {
218          # NXTMFB*       last block allocated to master file          # NXTMFB*       last block allocated to master file
219          # NXTMFP        offset to next available position in last block          # NXTMFP        offset to next available position in last block
220          # MFTYPE        always 0 for user db file (1 for system)          # MFTYPE        always 0 for user db file (1 for system)
221          seek(fileMST,4,0);          seek($self->{'fileMST'},4,0) || croak "can't seek to offset 0 in MST: $!";
222    
223          my $buff;          my $buff;
224    
225          read(fileMST, $buff, 4);          read($self->{'fileMST'}, $buff, 4) || croak "can't read NXTMFN from MST: $!";
226          $self->{'NXTMFN'}=unpack("l",$buff) || carp "NXTNFN is zero";          $self->{'NXTMFN'}=unpack("V",$buff) || croak "NXTNFN is zero";
   
         # save maximum MFN  
         $self->{'maxmfn'} = $self->{'NXTMFN'} - 1;  
   
         close(fileMST);  
   
         # Get the index information from $db.CNT  
     
         open(fileCNT, $self->{isisdb}.".CNT") || croak "can't read '$self->{isisdb}.CNT': $!";  
   
         # There is two 26 Bytes fixed lenght records  
227    
228          #  0: IDTYPE    BTree type                              16          print STDERR "## self ",Dumper($self),"\n" if ($self->{debug});
         #  2: ORDN      Nodes Order                             16  
         #  4: ORDF      Leafs Order                             16  
         #  6: N         Number of Memory buffers for nodes      16  
         #  8: K         Number of buffers for first level index 16  
         # 10: LIV       Current number of Index Levels          16  
         # 12: POSRX*    Pointer to Root Record in N0x           32  
         # 16: NMAXPOS*  Next Available position in N0x          32  
         # 20: FMAXPOS*  Next available position in L0x          32  
         # 24: ABNORMAL  Formal BTree normality indicator        16  
         # length: 26 bytes  
   
         sub unpack_cnt {  
                 my $self = shift;  
   
                 my @flds = qw(ORDN ORDF N K LIV POSRX NMAXPOS FMAXPOS ABNORMAL);  
   
                 my $buff = shift || return;  
                 my @arr = unpack("ssssssllls", $buff);  
   
                 print STDERR "unpack_cnt: ",join(" ",@arr),"\n" if ($self->{'debug'});  
   
                 my $IDTYPE = shift @arr;  
                 foreach (@flds) {  
                         $self->{$IDTYPE}->{$_} = abs(shift @arr);  
                 }  
         }  
   
         read(fileCNT, $buff, 26);  
         $self->unpack_cnt($buff);  
229    
230          read(fileCNT, $buff, 26);          # open files for later
231          $self->unpack_cnt($buff);          open($self->{'fileXRF'}, $self->{xrf_file}) || croak "can't open '$self->{xrf_file}': $!";
232            binmode($self->{'fileXRF'});
233    
234            $self ? return $self : return undef;
235    }
236    
237          close(fileCNT);  =head2 count
238    
239          print STDERR Dumper($self),"\n" if ($self->{debug});  Return number of records in database
240    
241          # open files for later    print $isis->count;
         open($self->{'fileXRF'}, $self->{isisdb}.".XRF") || croak "can't open '$self->{isisdb}.XRF': $!";  
242    
243          open($self->{'fileMST'}, $self->{isisdb}.".MST") || croak "can't open '$self->{isisdb}.MST': $!";  =cut
244    
245          $self ? return $self : return undef;  sub count {
246            my $self = shift;
247            return $self->{'NXTMFN'} - 1;
248  }  }
249    
250  =head2 fetch  =head2 fetch
# Line 260  sub fetch { Line 270  sub fetch {
270    
271          # is mfn allready in memory?          # is mfn allready in memory?
272          my $old_mfn = $self->{'current_mfn'} || -1;          my $old_mfn = $self->{'current_mfn'} || -1;
273          return if ($mfn == $old_mfn);          return $self->{record} if ($mfn == $old_mfn);
274    
275          print STDERR "## fetch: $mfn\n" if ($self->{debug});          print STDERR "## fetch: $mfn\n" if ($self->{debug});
276    
277          # XXX check this?          # XXX check this?
278          my $mfnpos=($mfn+int(($mfn-1)/127))*4;          my $mfnpos=($mfn+int(($mfn-1)/127))*4;
279    
280          print STDERR "## seeking to $mfnpos in file '$self->{isisdb}.XRF'\n" if ($self->{debug});          print STDERR "## seeking to $mfnpos in file '$self->{xrf_file}'\n" if ($self->{debug});
281          seek($self->{'fileXRF'},$mfnpos,0);          seek($self->{'fileXRF'},$mfnpos,0);
282    
283          my $buff;          my $buff;
284    
285            # delete old record
286            delete $self->{record};
287    
288          # read XRFMFB abd XRFMFP          # read XRFMFB abd XRFMFP
289          read($self->{'fileXRF'}, $buff, 4);          read($self->{'fileXRF'}, $buff, 4);
290          my $pointer=unpack("l",$buff) || carp "pointer is null";          my $pointer=unpack("V",$buff);
291            if (! $pointer) {
292                    if ($self->{include_deleted}) {
293                            return;
294                    } else {
295                            warn "pointer for MFN $mfn is null\n";
296                            return;
297                    }
298            }
299    
300            # check for logically deleted record
301            if ($pointer & 0x80000000) {
302                    print STDERR "## record $mfn is logically deleted\n" if ($self->{debug});
303                    $self->{deleted} = $mfn;
304    
305                    return unless $self->{include_deleted};
306    
307                    # abs
308                    $pointer = ($pointer ^ 0xffffffff) + 1;
309            }
310    
311          my $XRFMFB = int($pointer/2048);          my $XRFMFB = int($pointer/2048);
312          my $XRFMFP = $pointer - ($XRFMFB*2048);          my $XRFMFP = $pointer - ($XRFMFB*2048);
313    
   
314          # (XRFMFB - 1) * 512 + XRFMFP          # (XRFMFB - 1) * 512 + XRFMFP
315          # why do i have to do XRFMFP % 1024 ?          # why do i have to do XRFMFP % 1024 ?
316    
317          my $blk_off = (($XRFMFB - 1) * 512) + ($XRFMFP % 1024);          my $blk_off = (($XRFMFB - 1) * 512) + ($XRFMFP % 512);
318    
319          print STDERR "## pointer: $pointer XRFMFB: $XRFMFB XRFMFP: $XRFMFP offset: $blk_off\n" if ($self->{'debug'});          print STDERR "## pointer: $pointer XRFMFB: $XRFMFB XRFMFP: $XRFMFP offset: $blk_off\n" if ($self->{'debug'});
320    
321          # Get Record Information          # Get Record Information
322    
323          seek($self->{'fileMST'},$blk_off,0);          seek($self->{'fileMST'},$blk_off,0) || croak "can't seek to $blk_off: $!";
324    
325          read($self->{'fileMST'}, $buff, 4);          read($self->{'fileMST'}, $buff, 4) || croak "can't read 4 bytes at offset $blk_off from MST file: $!";
326          my $value=unpack("l",$buff);          my $value=unpack("V",$buff);
327    
328          print STDERR "## offset for rowid $value is $blk_off (blk $XRFMFB off $XRFMFP)\n" if ($self->{debug});          print STDERR "## offset for rowid $value is $blk_off (blk $XRFMFB off $XRFMFP)\n" if ($self->{debug});
329    
330          if ($value!=$mfn) {          if ($value!=$mfn) {
331                  carp "Error: MFN ".$mfn." not found in MST(".$value.")";                      if ($value == 0) {
332                  #return;                # XXX deleted record?                          print STDERR "## record $mfn is physically deleted\n" if ($self->{debug});
333          }                          $self->{deleted} = $mfn;
334                            return;
335                    }
336    
337  #       $MFRL=$self->Read16($fileMST);                  carp "Error: MFN ".$mfn." not found in MST file, found $value";    
338  #       $MFBWB=$self->Read32($fileMST);                  return;
339  #       $MFBWP=$self->Read16($fileMST);          }
 #       $BASE=$self->Read16($fileMST);  
 #       $NVF=$self->Read16($fileMST);  
 #       $STATUS=$self->Read16($fileMST);  
340    
341          read($self->{'fileMST'}, $buff, 14);          read($self->{'fileMST'}, $buff, 14);
342    
343          my ($MFRL,$MFBWB,$MFBWP,$BASE,$NVF,$STATUS) = unpack("slssss", $buff);          my ($MFRL,$MFBWB,$MFBWP,$BASE,$NVF,$STATUS) = unpack("vVvvvv", $buff);
344    
345          print STDERR "## MFRL: $MFRL MFBWB: $MFBWB MFBWP: $MFBWP BASE: $BASE NVF: $NVF STATUS: $STATUS\n" if ($self->{debug});          print STDERR "## MFRL: $MFRL MFBWB: $MFBWB MFBWP: $MFBWP BASE: $BASE NVF: $NVF STATUS: $STATUS\n" if ($self->{debug});
346    
347          # delete old record          warn "MFRL $MFRL is not even number" unless ($MFRL % 2 == 0);
         delete $self->{record};  
   
         ## FIXME this is a bug  
         if (! $self->{'include_deleted'} && $MFRL < 0) {  
                 print "## logically deleted record $mfn, skipping...\n" if ($self->{debug});  
                 return;  
         }  
348    
349          warn "BASE is not 18+6*NVF" unless ($BASE == 18 + 6 * $NVF);          warn "BASE is not 18+6*NVF" unless ($BASE == 18 + 6 * $NVF);
350    
# Line 337  sub fetch { Line 360  sub fetch {
360    
361          for (my $i = 0 ; $i < $NVF ; $i++) {          for (my $i = 0 ; $i < $NVF ; $i++) {
362    
363  #               $TAG=$self->Read16($fileMST);                  my ($TAG,$POS,$LEN) = unpack("vvv", substr($buff,$i * 6, 6));
 #               $POS=$self->Read16($fileMST);  
 #               $LEN=$self->Read16($fileMST);  
   
                 my ($TAG,$POS,$LEN) = unpack("sss", substr($buff,$i * 6, 6));  
364    
365                  print STDERR "## TAG: $TAG POS: $POS LEN: $LEN\n" if ($self->{debug});                  print STDERR "## TAG: $TAG POS: $POS LEN: $LEN\n" if ($self->{debug});
366    
# Line 374  sub fetch { Line 393  sub fetch {
393    
394                  push @{$self->{record}->{$FieldTAG[$i]}}, substr($buff,$FieldPOS[$i],$FieldLEN[$i]);                  push @{$self->{record}->{$FieldTAG[$i]}}, substr($buff,$FieldPOS[$i],$FieldLEN[$i]);
395          }          }
         close(fileMST);  
396    
397          $self->{'current_mfn'} = $mfn;          $self->{'current_mfn'} = $mfn;
398    
399          print Dumper($self),"\n" if ($self->{debug});          print STDERR Dumper($self),"\n" if ($self->{debug});
400    
401          return $self->{'record'};          return $self->{'record'};
402  }  }
403    
404    =head2 mfn
405    
406    Returns current MFN position
407    
408      my $mfn = $isis->mfn;
409    
410    =cut
411    
412    # This function should be simple return $self->{current_mfn},
413    # but if new is called with _hack_mfn it becomes setter.
414    # It's useful in tests when setting $isis->{record} directly
415    
416    sub mfn {
417            my $self = shift;
418            return $self->{current_mfn};
419    };
420    
421    
422  =head2 to_ascii  =head2 to_ascii
423    
424  Dump ASCII output of record with specified MFN  Returns ASCII output of record with specified MFN
425    
426    print $isis->to_ascii(42);    print $isis->to_ascii(42);
427    
428  It outputs something like this:  This outputs something like this:
429    
430    210   ^aNew York^cNew York University press^dcop. 1988    210   ^aNew York^cNew York University press^dcop. 1988
431    990   2140    990   2140
# Line 406  sub to_ascii { Line 442  sub to_ascii {
442    
443          my $mfn = shift || croak "need MFN";          my $mfn = shift || croak "need MFN";
444    
445          my $rec = $self->fetch($mfn);          my $rec = $self->fetch($mfn) || return;
446    
447          my $out = "0\t$mfn";          my $out = "0\t$mfn";
448    
# Line 426  Read record with specified MFN and conve Line 462  Read record with specified MFN and conve
462    
463    my $hash = $isis->to_hash($mfn);    my $hash = $isis->to_hash($mfn);
464    
465  It has ability to convert characters (using C<hash_filter> from ISIS  It has ability to convert characters (using C<hash_filter>) from ISIS
466  database before creating structures enabling character re-mapping or quick  database before creating structures enabling character re-mapping or quick
467  fix-up of data.  fix-up of data.
468    
# Line 462  which will be used for identifiers, C<i1 Line 498  which will be used for identifiers, C<i1
498               }               }
499             ],             ],
500    
501    In case there are repeatable subfields in record, this will create
502    following structure:
503    
504      '900' => [ {
505            'a' => [ 'foo', 'bar', 'baz' ],
506      }]
507    
508    Or in more complex example of
509    
510      902   ^aa1^aa2^aa3^bb1^aa4^bb2^cc1^aa5
511    
512    it will create
513    
514      902   => [
515            { a => ["a1", "a2", "a3", "a4", "a5"], b => ["b1", "b2"], c => "c1" },
516      ],
517    
518    This behaviour can be changed using C<join_subfields_with> option to L</new>,
519    in which case C<to_hash> will always create single value for each subfield.
520    This will change result to:
521    
522    
523    
524  This method will also create additional field C<000> with MFN.  This method will also create additional field C<000> with MFN.
525    
526    There is also more elaborative way to call C<to_hash> like this:
527    
528      my $hash = $isis->to_hash({
529            mfn => 42,
530            include_subfields => 1,
531            regexps => [
532                    's/something/else/g',
533            ],
534      });
535    
536    Each option controll creation of hash:
537    
538    =over 4
539    
540    =item mfn
541    
542    Specify MFN number of record
543    
544    =item include_subfields
545    
546    This option will create additional key in hash called C<subfields> which will
547    have original record subfield order and index to that subfield like this:
548    
549      902   => [ {
550            a => ["a1", "a2", "a3", "a4", "a5"],
551            b => ["b1", "b2"],
552            c => "c1",
553            subfields => ["a", 0, "a", 1, "a", 2, "b", 0, "a", 3, "b", 1, "c", 0, "a", 4],
554      } ],
555    
556    =item join_subfields_with
557    
558    Define delimiter which will be used to join repeatable subfields. You can
559    specify option here instead in L</new> if you want to have per-record control.
560    
561    =item regexpes
562    
563    Override C<regexpes> specified in L</new>.
564    
565    =back
566    
567  =cut  =cut
568    
569  sub to_hash {  sub to_hash {
570          my $self = shift;          my $self = shift;
571    
572    
573          my $mfn = shift || confess "need mfn!";          my $mfn = shift || confess "need mfn!";
574            my $arg;
575    
576            if (ref($mfn) eq 'HASH') {
577                    $arg = $mfn;
578                    $mfn = $arg->{mfn} || confess "need mfn in arguments";
579            }
580    
581            $arg->{regexpes} ||= $self->{regexpes};
582    
583            confess "regexps must be HASH" if ($arg->{regexps} && ref($arg->{regexps}) ne 'HASH');
584    
585          # init record to include MFN as field 000          # init record to include MFN as field 000
586          my $rec = { '000' => [ $mfn ] };          my $rec = { '000' => [ $mfn ] };
587    
588          my $row = $self->fetch($mfn);          my $row = $self->fetch($mfn) || return;
589    
590          foreach my $k (keys %{$row}) {          my $j_rs = $arg->{join_subfields_with};
591                  foreach my $l (@{$row->{$k}}) {          $j_rs = $self->{join_subfields_with} unless(defined($j_rs));
592            my $i_sf = $arg->{include_subfields};
593    
594            foreach my $f_nr (keys %{$row}) {
595                    foreach my $l (@{$row->{$f_nr}}) {
596    
597                          # filter output                          # filter output
598                          $l = $self->{'hash_filter'}->($l) if ($self->{'hash_filter'});                          if ($self->{'hash_filter'}) {
599                                    $l = $self->{'hash_filter'}->($l);
600                                    next unless defined($l);
601                            }
602    
603                            # apply regexps
604                            if ($arg->{regexps} && defined($arg->{regexps}->{$f_nr})) {
605                                    confess "regexps->{$f_nr} must be ARRAY" if (ref($arg->{regexps}->{$f_nr}) ne 'ARRAY');
606                                    my $c = 0;
607                                    foreach my $r (@{ $arg->{regexps}->{$f_nr} }) {
608                                            while ( eval '$l =~ ' . $r ) { $c++ };
609                                    }
610                                    warn "## field $f_nr triggered $c regexpes\n" if ($c && $self->{debug});
611                            }
612    
613                          my $val;                          my $val;
614                            my $r_sf;       # repeatable subfields in this record
615    
616                          # has identifiers?                          # has identifiers?
617                          ($val->{'i1'},$val->{'i2'}) = ($1,$2) if ($l =~ s/^([01 #])([01 #])//);                          ($val->{'i1'},$val->{'i2'}) = ($1,$2) if ($l =~ s/^([01 #])([01 #])\^/\^/);
618    
619                          # has subfields?                          # has subfields?
620                          if ($l =~ m/\^/) {                          if ($l =~ m/\^/) {
621                                  foreach my $t (split(/\^/,$l)) {                                  foreach my $t (split(/\^/,$l)) {
622                                          next if (! $t);                                          next if (! $t);
623                                          $val->{substr($t,0,1)} = substr($t,1);                                          my ($sf,$v) = (substr($t,0,1), substr($t,1));
624                                            # XXX this might be option, but why?
625                                            next unless ($v);
626    #                                       warn "### $f_nr^$sf:$v",$/ if ($self->{debug} > 1);
627    
628                                            if (ref( $val->{$sf} ) eq 'ARRAY') {
629    
630                                                    push @{ $val->{$sf} }, $v;
631    
632                                                    # record repeatable subfield it it's offset
633                                                    push @{ $val->{subfields} }, ( $sf, $#{ $val->{$sf} } ) if (! $j_rs && $i_sf);
634                                                    $r_sf->{$sf}++;
635    
636                                            } elsif (defined( $val->{$sf} )) {
637    
638                                                    # convert scalar field to array
639                                                    $val->{$sf} = [ $val->{$sf}, $v ];
640    
641                                                    push @{ $val->{subfields} }, ( $sf, 1 ) if (! $j_rs && $i_sf);
642                                                    $r_sf->{$sf}++;
643    
644                                            } else {
645                                                    $val->{$sf} = $v;
646                                                    push @{ $val->{subfields} }, ( $sf, 0 ) if ($i_sf);
647                                            }
648                                  }                                  }
649                          } else {                          } else {
650                                  $val = $l;                                  $val = $l;
651                          }                          }
652    
653                          push @{$rec->{$k}}, $val;                          if ($j_rs) {
654                                    map {
655                                            $val->{$_} = join($j_rs, @{ $val->{$_} });
656                                    } keys %$r_sf
657                            }
658    
659                            push @{$rec->{$f_nr}}, $val;
660                  }                  }
661          }          }
662    
# Line 518  sub tag_name { Line 677  sub tag_name {
677          return $self->{'TagName'}->{$tag} || $tag;          return $self->{'TagName'}->{$tag} || $tag;
678  }  }
679    
680    
681    =head2 read_cnt
682    
683    Read content of C<.CNT> file and return hash containing it.
684    
685      print Dumper($isis->read_cnt);
686    
687    This function is not used by module (C<.CNT> files are not required for this
688    module to work), but it can be useful to examine your index (while debugging
689    for example).
690    
691    =cut
692    
693    sub read_cnt  {
694            my $self = shift;
695    
696            croak "missing CNT file in ",$self->{isisdb} unless ($self->{cnt_file});
697    
698            # Get the index information from $db.CNT
699      
700            open(my $fileCNT, $self->{cnt_file}) || croak "can't read '$self->{cnt_file}': $!";
701            binmode($fileCNT);
702    
703            my $buff;
704    
705            read($fileCNT, $buff, 26) || croak "can't read first table from CNT: $!";
706            $self->unpack_cnt($buff);
707    
708            read($fileCNT, $buff, 26) || croak "can't read second table from CNT: $!";
709            $self->unpack_cnt($buff);
710    
711            close($fileCNT);
712    
713            return $self->{cnt};
714    }
715    
716    =head2 unpack_cnt
717    
718    Unpack one of two 26 bytes fixed length record in C<.CNT> file.
719    
720    Here is definition of record:
721    
722     off key        description                             size
723      0: IDTYPE     BTree type                              s
724      2: ORDN       Nodes Order                             s
725      4: ORDF       Leafs Order                             s
726      6: N          Number of Memory buffers for nodes      s
727      8: K          Number of buffers for first level index s
728     10: LIV        Current number of Index Levels          s
729     12: POSRX      Pointer to Root Record in N0x           l
730     16: NMAXPOS    Next Available position in N0x          l
731     20: FMAXPOS    Next available position in L0x          l
732     24: ABNORMAL   Formal BTree normality indicator        s
733     length: 26 bytes
734    
735    This will fill C<$self> object under C<cnt> with hash. It's used by C<read_cnt>.
736    
737    =cut
738    
739    sub unpack_cnt {
740            my $self = shift;
741    
742            my @flds = qw(ORDN ORDF N K LIV POSRX NMAXPOS FMAXPOS ABNORMAL);
743    
744            my $buff = shift || return;
745            my @arr = unpack("vvvvvvVVVv", $buff);
746    
747            print STDERR "unpack_cnt: ",join(" ",@arr),"\n" if ($self->{'debug'});
748    
749            my $IDTYPE = shift @arr;
750            foreach (@flds) {
751                    $self->{cnt}->{$IDTYPE}->{$_} = abs(shift @arr);
752            }
753    }
754    
755  1;  1;
756    
757  =head1 BUGS  =head1 BUGS
758    
759  This module has been very lightly tested. Use with caution and report bugs.  Some parts of CDS/ISIS documentation are not detailed enough to exmplain
760    some variations in input databases which has been tested with this module.
761    When I was in doubt, I assumed that OpenIsis's implementation was right
762    (except for obvious bugs).
763    
764    However, every effort has been made to test this module with as much
765    databases (and programs that create them) as possible.
766    
767    I would be very greatful for success or failure reports about usage of this
768    module with databases from programs other than WinIsis and IsisMarc. I had
769    tested this against ouput of one C<isis.dll>-based application, but I don't
770    know any details about it's version.
771    
772    =head1 VERSIONS
773    
774    As this is young module, new features are added in subsequent version. It's
775    a good idea to specify version when using this module like this:
776    
777      use Biblio::Isis 0.21
778    
779    Below is list of changes in specific version of module (so you can target
780    older versions if you really have to):
781    
782    =over 8
783    
784    =item 0.21
785    
786    Added C<join_subfields_with> to L</new> and L</to_hash>.
787    
788    Added C<include_subfields> to L</to_hash>.
789    
790    =item 0.20
791    
792    Added C<< $isis->mfn >>, support for repeatable subfields and
793    C<< $isis->to_hash({ mfn => 42, ... }) >> calling convention
794    
795    =back
796    
797  =head1 AUTHOR  =head1 AUTHOR
798    
# Line 545  LICENSE file included with this module. Line 815  LICENSE file included with this module.
815    
816  =head1 SEE ALSO  =head1 SEE ALSO
817    
818    L<Biblio::Isis::Manual> for CDS/ISIS manual appendix F, G and H which describe file format
819    
820  OpenIsis web site L<http://www.openisis.org>  OpenIsis web site L<http://www.openisis.org>
821    
822  perl4lib site L<http://perl4lib.perl.org>  perl4lib site L<http://perl4lib.perl.org>

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