XBase - Perl module for reading and writing the dbf files

Index

NAME
SYNOPSIS
DESCRIPTION
DATA TYPES
INDEX, LOCKS
INFORMATION SOURCE
VERSION
AVAILABLE FROM
AUTHOR
THANKS
SEE ALSO

Code Index:

package XBase
package XBase::Cursor
- fetch
- fetch_hashref
- last_fetched
- table
- names
- rewind
- attach_index
package XBase::IndexCursor
__END__
EOF

NAME

XBase - Perl module for reading and writing the dbf files

SYNOPSIS

  use XBase;
  my $table = new XBase "dbase.dbf" or die XBase->errstr;
  for (0 .. $table->last_record) {
	my ($deleted, $id, $msg)
		= $table->get_record($_, "ID", "MSG");
	print "$id:\t$msg\n" unless $deleted;
  }

DESCRIPTION

This module can read and write XBase database files, known as dbf in dBase and FoxPro world. It also reads memo fields from the dbt and fpt files, if needed. An alpha code of reading index support for ndx, ntx, mdx, idx and cdx is available for testing -- see the DBD::Index(3) man page. Module XBase provides simple native interface to XBase files. For DBI compliant database access, see the DBD::XBase and DBI modules and their man pages.

The following methods are supported by XBase module:

General methods

new

Creates the XBase object, loads the info about the table form the dbf file. The first parameter should be the name of existing dbf file (table, in fact) to read. A suffix .dbf will be appended if needed. This method creates and initializes new object, will also check for memo file, if needed.

The parameters can also be specified in the form of hash: value of name is then the name of the table, other flags supported are:

memofile specifies non standard name for the associated memo file. By default it's the name of the dbf file, with extension dbt or fpt.

ignorememo ignore memo file at all. This is usefull if you've lost the dbt file and you do not need it. Default is false.

memosep separator of memo records in the dBase III dbt files. The standard says it should be "\x1a\x1a". There are however implamentations that only put in one "\x1a". XBase.pm tries to guess which is valid for your dbt but if it fails, you can tell it yourself.

nolongchars prevents XBase to treat the decimal value of character fields as high byte of the length -- there are some broken products around producing character fields with decimal values set.

    my $table = new XBase "table.dbf" or die XBase->errstr;

    my $table = new XBase "name" => "table.dbf",
					"ignorememo" => 1;

recompute_lastrecno forces XBase.pm to disbelieve the information about the number of records in the header of the dbf file and recompute the number of records. Use this only if you know that some other software of yours produces incorrect headers.

close

Closes the object/file, no arguments.

create

Creates new database file on disk and initializes it with 0 records. A dbt (memo) file will be also created if the table contains some memo fields. Parameters to create are passed as hash.

You can call this method as method of another XBase object and then you only need to pass name value of the hash; the structure (fields) of the new file will be the same as of the original object.

If you call create using class name (XBase), you have to (besides name) also specify another four values, each being a reference to list: field_names, field_types, field_lengths and field_decimals. The field types are specified by one letter strings (C, N, L, D, ...). If you set some value as undefined, create will make it into some reasonable default.

    my $newtable = $table->create("name" => "copy.dbf");

    my $newtable = XBase->create("name" => "copy.dbf",
		"field_names" => [ "ID", "MSG" ],
		"field_types" => [ "N", "C" ],
		"field_lengths" => [ 6, 40 ],
		"field_decimals" => [ 0, undef ]);

Other attributes are memofile for non standard memo file location, codepage to set the codepage flag in the dbf header (it does not affect how XBase.pm reads or writes the data though, just to make FoxPro happy), and version to force different version of the dbt (dbt) file. The default is the version of the object from which you create the new one, or 3 if you call this as class method (XBase->create).

The new file mustn't exist yet -- XBase will not allow you to overwrite existing table. Use drop (or unlink) to delete it first.

drop

This method closes the table and deletes it on disk (including associated memo file, if there is any).

last_record

Returns number of the last record in the file. The lines deleted but present in the file are included in this number.

last_field

Returns number of the last field in the file, number of fields minus 1.

field_names, field_types, field_lengths, field_decimals

Return list of field names and so on for the dbf file.

field_type, field_length, field_decimal

For a field name, returns the appropriate value. Returns undef if the field doesn't exist in the table.

Reading the data one by one

When dealing with the records one by one, reading or writing (the following six methods), you have to specify the number of the record in the file as the first argument. The range is 0 .. $table->last_record.

get_record: Returns a list of data (field values) from the specified record (line of the table). The first parameter in the call is the number of the record. If you do not specify any other parameters, all fields are returned in the same order as they appear in the file. You can also put list of field names after the record number and then only those will be returned. The first value of the returned list is always the 1/0 _DELETED value saying whether the record is deleted or not, so on success, get_record never returns empty list.
get_record_nf: Instead if the names of the fields, you can pass list of numbers of the fields to read.
get_record_as_hash: Returns hash (in list context) or reference to hash (in scalar context) containing field values indexed by field names. The name of the deleted flag is _DELETED. The only parameter in the call is the record number. The field names are returned as uppercase.

Writing the data

All three writing methods always undelete the record. On success they return true -- the record number actually written.

set_record: As parameters, takes the number of the record and the list of values of the fields. It writes the record to the file. Unspecified fields (if you pass less than you should) are set to undef/empty.
set_record_hash: Takes number of the record and hash as parameters, sets the fields, unspecified are undefed/emptied.
update_record_hash: Like set_record_hash but fields that do not have value specified in the hash retain their value.

To explicitely delete/undelete a record, use methods delete_record or undelete_record with record number as a parameter.

Assorted examples of reading and writing:

    my @data = $table->get_record(3, "jezek", "krtek");
    my $hashref = $table->get_record_as_hash(38);
    $table->set_record_hash(8, "jezek" => "jezecek",
					"krtek" => 5);
    $table->undelete_record(4);

This is a code to update field MSG in record where ID is 123.

    use XBase;
    my $table = new XBase "test.dbf" or die XBase->errstr;
    for (0 .. $table->last_record) {
    	my ($deleted, $id) = $table->get_record($_, "ID")
    	die $table->errstr unless defined $deleted;
    	next if $deleted;
	$table->update_record_hash($_, "MSG" => "New message")
						if $id == 123;
    }

Sequentially reading the file

If you plan to sequentially walk through the file, you can create a cursor first and then repeatedly call fetch to get next record.

prepare_select: As parameters, pass list of field names to return, if no parameters, the following fetch will return all fields.
prepare_select_with_index: The first parameter is the file name of the index file, the rest is as above. For index types that can hold more index structures in on file, use arrayref instead of the file name and in that array include file name and the tag name, and optionaly the index type. The fetch will then return records in the ascending order, according to the index.

Prepare will return object cursor, the following method are methods of the cursor, not of the table.

fetch: Returns the fields of the next available undeleted record. The list thus doesn't contain the _DELETED flag since you are guaranteed that the record is not deleted.
fetch_hashref: Returns a hash reference of fields for the next non deleted record.
last_fetched: Returns the number of the record last fetched.
find_eq: This only works with cursor created via prepare_select_with_index. Will roll to the first record what is equal to specified argument, or to the first greater if there is none equal. The following fetches then continue normally.

Examples of using cursors:

    my $table = new XBase "names.dbf" or die XBase->errstr;
    my $cursor = $table->prepare_select("ID", "NAME", "STREET");
    while (my @data = $cursor->fetch) {
	### do something here, like print "@data\n";
    }

    my $table = new XBase "employ.dbf";
    my $cur = $table->prepare_select_with_index("empid.ndx");
    ## my $cur = $table->prepare_select_with_index(
		["empid.cdx", "ADDRES", "char"], "id", "address");
    $cur->find_eq(1097);
    while (my $hashref = $cur->fetch_hashref
			and $hashref->{"ID"} == 1097) {
	### do something here with $hashref
    }

The second example shows that after you have done find_eq, the fetches continue untill the end of the index, so you have to check whether you are still on records with given value. And if there is no record with value 1097 in the indexed field, you will just get the next record in the order.

The updating example can be rewritten to:

    use XBase;
    my $table = new XBase "test.dbf" or die XBase->errstr;
    my $cursor = $table->prepare_select("ID")
    while (my ($id) = $cursor->fetch) {
	$table->update_record_hash($cursor->last_fetched,
			"MSG" => "New message") if $id == 123	
    }

Dumping the content of the file

A method get_all_records returns reference to an array containing array of values for each undeleted record at once. As parameters, pass list of fields to return for each record.

To print the content of the file in a readable form, use method dump_records. It prints all not deleted records from the file. By default, all fields are printed, separated by colons, one record on a row. The method can have parameters in a form of a hash with the following keys:

rs: Record separator, string, newline by default.
fs: Field separator, string, one colon by default.
fields: Reference to a list of names of the fields to print. By default it's undef, meaning all fields.
undef: What to print for undefined (NULL) values, empty string by default.

Example of use is

    use XBase;
    my $table = new XBase "table" or die XBase->errstr;
    $table->dump_records("fs" => " | ", "rs" => " <-+\n",
			"fields" => [ "id", "msg" ]);'

Also note that there is a script dbfdump(1) that does the printing.

Errors and debugging

If the method fails (returns false or null list), the error message can be retrieved via errstr method. If the new or create method fails, you have no object so you get the error message using class syntax XBase->errstr().

The method header_info returns (not prints) string with information about the file and about the fields.

Module XBase::Base(3) defines some basic functions that are inherited by both XBase and XBase::Memo(3) module.

DATA TYPES

The character fields are returned "as is". No charset or other translation is done. The numbers are converted to Perl numbers. The date fields are returned as 8 character string of the 'YYYYMMDD' form and when inserting the date, you again have to provide it in this form. No checking for the validity of the date is done. The datetime field is returned in the number of (possibly negative) seconds since 1970/1/1, possibly with decimal part (since it allows precision up to 1/1000 s). To get the fields, use the gmtime (or similar) Perl function.

If there is a memo field in the dbf file, the module tries to open file with the same name but extension dbt, fpt or smt. It uses module XBase::Memo(3) for this. It reads and writes this memo field transparently (you do not know about it) and returns the data as single scalar.

INDEX, LOCKS

New: A support for ndx, ntx, mdx, idx and cdx index formats is available with alpha status for testing. Some of the formats are already rather stable (ndx). Please read the XBase::Index(3) man page and the eg/use_index file in the distribution for examples and ideas. Send me examples of your data files and suggestions for interface if you need indexes.

General locking methods are locksh, lockex and unlock for shared lock, exclusive lock and unlock. They call flock but you can redefine then in XBase::Base package.

INFORMATION SOURCE

This module is built using information from and article XBase File Format Description by Erik Bachmann, URL

	http://www.clicketyclick.dk/databases/xbase/format/

Thanks a lot.

VERSION

1.02

AVAILABLE FROM

http://www.adelton.com/perl/DBD-XBase/

AUTHOR

Contact the author at jpx dash perl at adelton dot com.

THANKS

Many people have provided information, test files, test results and patches. This project would not be so great without them. See the Changes file for (I hope) complete list. Thank you all, guys!

Special thanks go to Erik Bachmann for his great page about the file structures; to Frans van Loon, William McKee, Randy Kobes and Dan Albertsson for longtime cooperation and many emails we've exchanged when fixing and polishing the modules' behaviour; and to Dan Albertsson for providing support for the project.

# ############ package XBase; use 5.010; use strict; use XBase::Base; # will give us general methods # ############## # General things use vars qw( $VERSION $errstr $CLEARNULLS @ISA ); @ISA = qw( XBase::Base ); $VERSION = '1.02'; $CLEARNULLS = 1; # Cut off white spaces from ends of char fields *errstr = \$XBase::Base::errstr; # ######################################### # Open, read_header, init_memo_field, close # Open the specified file or try to append the .dbf suffix. sub open { my ($self) = shift; my %options; if (scalar(@_) % 2) { $options{'name'} = shift; } $self->{'openoptions'} = { %options, @_ }; my %locoptions; @locoptions{ qw( name readonly ignorememo fh ) } = @{$self->{'openoptions'}}{ qw( name readonly ignorememo fh ) }; my $filename = $locoptions{'name'}; if ($filename eq '-') { return $self->SUPER::open(%locoptions); } for my $ext ('', '.dbf', '.DBF') { if (-f $filename.$ext) { $locoptions{'name'} = $filename.$ext; $self->NullError(); return $self->SUPER::open(%locoptions); } } $locoptions{'name'} = $filename; return $self->SUPER::open(%locoptions); # for nice error message } # We have to provide way to fill up the object upon open sub read_header { my $self = shift; my $fh = $self->{'fh'}; my $header; # read the header $self->read($header, 32) == 32 or do { __PACKAGE__->Error("Error reading header of $self->{'filename'}: $!\n"); return; }; @{$self}{ qw( version last_update num_rec header_len record_len encrypted ) } = unpack 'Ca3Vvv@15a1', $header; # parse the data ### if (0 and $self->{'encrypted'} ne "\000") ### { __PACKAGE__->Error("We don't support encrypted files, sorry.\n"); return; }; my $header_len = $self->{'header_len'}; my ($names, $types, $lengths, $decimals) = ( [], [], [], [] ); my ($unpacks, $readproc, $writeproc) = ( [], [], [] ); my $lastoffset = 1; while ($self->tell() < $header_len - 1) { # read the field desc's my $field_def; $self->read($field_def, 1); last if $field_def eq "\r"; # we have found the terminator my $read = $self->read($field_def, 31, 1); if ($read != 31) { __PACKAGE__->Error("Error reading field description: $!\n"); return; } my ($name, $type, $length, $decimal) = unpack 'A11a1 @16CC', $field_def; my ($rproc, $wproc); if ($type eq 'C') { # char # fixup for char length > 256 if ($decimal and not $self->{'openoptions'}{'nolongchars'}) { $length += 256 * $decimal; $decimal = 0; } $rproc = sub { my $value = $_[0]; if ($self->{'ChopBlanks'}) { $value =~ s/\s+$//; } return $value; ( $value eq '' ? undef : $value ); }; $wproc = sub { my $value = shift; sprintf '%-*.*s', $length, $length, (defined $value ? $value : ''); }; } elsif ($type eq 'L') { # logical (boolean) $rproc = sub { my $value = shift; if ($value =~ /^[YyTt]$/) { return 1; } if ($value =~ /^[NnFf]$/) { return 0; } undef; }; $wproc = sub { my $value = shift; sprintf '%-*.*s', $length, $length, (defined $value ? ( $value ? 'T' : 'F') : '?'); }; } elsif ($type =~ /^[NFD]$/) { # numbers, dates $rproc = sub { my $value = shift; ($value =~ /\d/) ? $value + 0 : undef; }; $wproc = sub { my $value = shift; if (defined $value) { substr(sprintf('%*.*f', $length, $decimal, ($value + 0)), -$length); } else { ' ' x $length; } }; } elsif ($type eq 'I') { # Fox integer $rproc = sub { unpack 'V', shift; }; $wproc = sub { pack 'V', shift; }; } elsif ($type eq 'B') { # Fox double $rproc = sub { unpack 'd', reverse scalar shift; }; $wproc = sub { reverse scalar pack 'd', shift; }; } elsif ($type =~ /^[MGP]$/) { # memo fields my $memo = $self->{'memo'}; if (not defined $memo and not $self->{'openoptions'}{'ignorememo'}) { $memo = $self->{'memo'} = $self->init_memo_field() or return; } if (defined $memo and $length == 10) { if (ref $memo eq 'XBase::Memo::Apollo') { $rproc = sub { $memo->read_record(shift); }; $wproc = sub { $memo->write_record(shift); }; } else { $rproc = sub { my $value = shift; return if not $value =~ /\d/ or $value < 0; $memo->read_record($value - 1) if defined $memo; }; $wproc = sub { my $value = $memo->write_record(-1, $type, $_[0]) if defined $memo and defined $_[0] and $_[0] ne ''; sprintf '%*.*s', $length, $length, (defined $value ? $value + 1: ''); }; } } elsif (defined $memo and $length == 4) { $rproc = sub { my $val = unpack('V', $_[0]) - 1; return if $val < 0; $memo->read_record($val) if defined $memo; }; $wproc = sub { my $value = $memo->write_record(-1, $type, shift) if defined $memo; pack 'V', (defined $value ? $value + 1: 0); }; } else { $rproc = sub { undef; }; $wproc = sub { ' ' x $length; }; } } elsif ($type eq 'T') { # time fields # datetime is stored internally as two # four-byte numbers; the first is the day under # the Julian Day System (JDS) and the second is # the number of milliseconds since midnight $rproc = sub { my ($day, $time) = unpack 'VV', $_[0]; my $localday = $day - 2440588; my $localtime = $localday * 24 * 3600; $localtime += $time / 1000; ### print STDERR "day,time: ($day,$time -> $localtime)\n"; return $localtime; my $localdata = "[$localday] $localtime: @{[localtime($localtime)]}"; my $usec = $time % 1000; my $hour = int($time / 3600000); my $min = int(($time % 3600000) / 60000); my $sec = int(($time % 60000) / 1000); return "$day($localdata)-$hour:$min:$sec.$usec"; }; $wproc = sub { my $localtime = shift; my $day = int($localtime / (24 * 3600)) + 2440588; my $time = int(($localtime % (3600 * 24)) * 1000); ### print STDERR "day,time: ($localtime -> $day,$time)\n"; return pack 'VV', $day, $time; } } elsif ($type eq '0') { # SNa : field "_NULLFLAGS" $rproc = $wproc = sub { '' }; } elsif ($type eq 'Y') { # Fox money $rproc = sub { my ($x, $y) = unpack 'VV', scalar shift; if ($y & 0x80000000) { - ($y ^ 0xffffffff) * (2**32 / 10**$decimal) - (($x - 1) ^ 0xffffffff) / 10**$decimal; } else { $y * (2**32 / 10**$decimal) + $x / 10**$decimal; } }; $wproc = sub { my $value = shift; if ($value < 0) { pack 'VV', (-$value * 10**$decimal + 1) ^ 0xffffffff, (-$value * 10**$decimal / 2**32) ^ 0xffffffff; } else { pack 'VV', ($value * 10**$decimal) % 2**32, (($value * 10**$decimal) >> 32); } }; } $name =~ s/[\000 ].*$//s; $name = uc $name; # no locale yet push @$names, $name; push @$types, $type; push @$lengths, $length; push @$decimals, $decimal; push @$unpacks, '@' . $lastoffset . 'a' . $length; push @$readproc, $rproc; push @$writeproc, $wproc; $lastoffset += $length; } if ($lastoffset > $self->{'record_len'} and not defined $self->{'openoptions'}{'nolongchars'}) { $self->seek_to(0); $self->{'openoptions'}{'nolongchars'} = 1; return $self->read_header; } if ($lastoffset != $self->{'record_len'} and not defined $self->{'openoptions'}{'ignorebadheader'}) { __PACKAGE__->Error("Missmatch in header of $self->{'filename'}: record_len $self->{'record_len'} but offset $lastoffset\n"); return; } if ($self->{'openoptions'}{'recompute_lastrecno'}) { $self->{num_rec} = int(((-s $self->{'fh'}) - $self->{header_len}) / $self->{record_len}); } my $hashnames = {}; # create name-to-num_of_field hash @{$hashnames}{ reverse @$names } = reverse ( 0 .. $#$names ); # now it's the time to store the values to the object @{$self}{ qw( field_names field_types field_lengths field_decimals hash_names last_field field_unpacks field_rproc field_wproc ChopBlanks) } = ( $names, $types, $lengths, $decimals, $hashnames, $#$names, $unpacks, $readproc, $writeproc, $CLEARNULLS ); 1; # return true since everything went fine } # When there is a memo field in dbf, try to open the memo file sub init_memo_field { my $self = shift; return $self->{'memo'} if defined $self->{'memo'}; require XBase::Memo; my %options = ( 'dbf_version' => $self->{'version'}, 'memosep' => $self->{'openoptions'}{'memosep'} ); if (defined $self->{'openoptions'}{'memofile'}) { return XBase::Memo->new($self->{'openoptions'}{'memofile'}, %options); } for (qw( dbt DBT fpt FPT smt SMT dbt )) { my $memo; my $memoname = $self->{'filename'}; ($memoname =~ s/\.dbf$/.$_/i or $memoname =~ s/(\.dbf)?$/.$_/i) and $memo = XBase::Memo->new($memoname, %options) and return $memo; } return; } # Close the file (and memo) sub close { my $self = shift; if (defined $self->{'memo'}) { $self->{'memo'}->close(); delete $self->{'memo'}; } $self->SUPER::close(); } # ############### # Little decoding sub version { shift->{'version'}; } sub last_record { shift->{'num_rec'} - 1; } sub last_field { shift->{'last_field'}; } # List of field names, types, lengths and decimals sub field_names { @{shift->{'field_names'}}; } sub field_types { @{shift->{'field_types'}}; } sub field_lengths { @{shift->{'field_lengths'}}; } sub field_decimals { @{shift->{'field_decimals'}}; } # Return field number for field name sub field_name_to_num { my ($self, $name) = @_; $self->{'hash_names'}{uc $name}; } sub field_type { my ($self, $name) = @_; defined (my $num = $self->field_name_to_num($name)) or return; ($self->field_types)[$num]; } sub field_length { my ($self, $name) = @_; defined (my $num = $self->field_name_to_num($name)) or return; ($self->field_lengths)[$num]; } sub field_decimal { my ($self, $name) = @_; defined (my $num = $self->field_name_to_num($name)) or return; ($self->field_decimals)[$num]; } # ############################# # Header, field and record info # Returns (not prints!) the info about the header of the object *header_info = \&get_header_info; sub get_header_info { my $self = shift; my $hexversion = sprintf '0x%02x', $self->version; my $longversion = $self->get_version_info()->{'string'}; my $printdate = $self->get_last_change; my $numfields = $self->last_field() + 1; my $result = sprintf <<"EOF"; Filename: $self->{'filename'} Version: $hexversion ($longversion) Num of records: $self->{'num_rec'} Header length: $self->{'header_len'} Record length: $self->{'record_len'} Last change: $printdate Num fields: $numfields Field info: Num Name Type Len Decimal EOF return join '', $result, map { $self->get_field_info($_) } (0 .. $self->last_field); } # Return info about field in dbf file sub get_field_info { my ($self, $num) = @_; sprintf "%d.\t%-16.16s%-8.8s%-8.8s%s\n", $num + 1, map { $self->{$_}[$num] } qw( field_names field_types field_lengths field_decimals ); } # Return last_change item as printable string sub get_last_change { my $self = shift; my $date = $self; if (ref $self) { $date = $self->{'last_update'}; } my ($year, $mon, $day) = unpack 'C3', $date; $year += ($year >= 70) ? 1900 : 2000; return "$year/$mon/$day"; } # Return text description of the version value sub get_version_info { my $version = shift; $version = $version->version() if ref $version; my $result = {}; $result->{'vbits'} = $version & 0x07; if ($version == 0x30 or $version == 0xf5) { $result->{'vbits'} = 5; $result->{'foxpro'} = 1; } elsif ($version & 0x08) { $result->{'vbits'} = 4; $result->{'memo'} = 1; } elsif ($version & 0x80) { $result->{'dbt'} = 1; } my $string = "ver. $result->{'vbits'}"; if (exists $result->{'foxpro'}) { $string .= " (FoxPro)"; } if (exists $result->{'memo'}) { $string .= " with memo file"; } elsif (exists $result->{'dbt'}) { $string .= " with DBT file"; } $result->{'string'} = $string; $result; } # Print the records as colon separated fields sub dump_records { my $self = shift; my %options = ( 'rs' => "\n", 'fs' => ':', 'undef' => '' ); my %inoptions = @_; for my $key (keys %inoptions) { my $value = $inoptions{$key}; my $outkey = lc $key; $outkey =~ s/[^a-z]//g; $options{$outkey} = $value; } my ($rs, $fs, $undef, $fields, $table) = @options{ qw( rs fs undef fields table ) }; if (defined $table) { eval 'use Data::ShowTable'; if ($@) { warn "You requested table output format but the module Data::ShowTable doesn't\nseem to be installed correctly. Falling back to standard\n"; $table = undef; } else { delete $options{'rs'}; delete $options{'fs'}; } } my @fields = (); my @unknown_fields; if (defined $fields) { if (ref $fields eq 'ARRAY') { @fields = @$fields; } else { @fields = split /\s*,\s*/, $fields; my $i = 0; while ($i < @fields) { if (defined $self->field_name_to_num($fields[$i])) { $i++; } elsif ($fields[$i] =~ /^(.*)-(.*)/) { local $^W = 0; my @allfields = $self->field_names; my ($start, $end) = ($1, $2); if ($start eq '') { $start = $allfields[0]; } if ($end eq '') { $end = $allfields[$#allfields]; } my $start_num = $self->field_name_to_num($start); my $end_num = $self->field_name_to_num($end); if ($start ne '' and not defined $start_num) { push @unknown_fields, $start; } if ($end ne '' and not defined $end_num) { push @unknown_fields, $end; } unless (defined $start and defined $end) { $start = 0; $end = -1; } splice @fields, $i, 1, @allfields[$start_num .. $end_num]; } else { push @unknown_fields, $fields[$i]; $i++; } } } } if (@unknown_fields) { $self->Error("There have been unknown fields `@unknown_fields' specified.\n"); return 0; } my $cursor = $self->prepare_select(@fields); my @record; if (defined $table) { local $^W = 0; &ShowBoxTable( $cursor->names(), [], [], sub { if ($_[0]) { $cursor->rewind(); } else { $cursor->fetch() } }); } else { while (@record = $cursor->fetch) { print join($fs, map { defined $_ ? $_ : $undef } @record), $rs; } } 1; } # ################### # Reading the records # Returns fields of the specified record; parameters and number of the # record (starting from 0) and optionally names of the required # fields. If no names are specified, all fields are returned. The # first value in the returned list if always 1/0 deleted flag. Returns # empty list on error. sub get_record { my ($self, $num) = (shift, shift); $self->NullError(); $self->get_record_nf( $num, map { $self->field_name_to_num($_); } @_); } *get_record_as_hash = \&get_record_hash; sub get_record_hash { my ($self, $num) = @_; my @list = $self->get_record($num) or return; my $hash = {}; @{$hash}{ '_DELETED', $self->field_names() } = @list; return %$hash if wantarray; $hash; } sub get_record_nf { my ($self, $num, @fieldnums) = @_; my $data = $self->read_record($num) or return; if (not @fieldnums) { @fieldnums = ( 0 .. $self->last_field ); } my $unpack = join ' ', '@0a1', map { my $e; defined $_ and $e = $self->{'field_unpacks'}[$_]; defined $e ? $e : '@0a0'; } @fieldnums; my $rproc = $self->{'field_rproc'}; my @fns = (\&_read_deleted, map { (defined $_ and defined $rproc->[$_]) ? $rproc->[$_] : sub { undef; }; } @fieldnums); my @out = unpack $unpack, $data; ### if ($self->{'encrypted'} ne "\000") { ### for my $data (@out) { ### for (my $i = 0; $i < length($data); $i++) { ### ## my $num = unpack 'C', substr($data, $i, 1); ### ## substr($data, $i, 1) = pack 'C', (($num >> 3) | ($num << 5) ^ 020); ### my $num = unpack 'C', substr($data, $i, 1); ### substr($data, $i, 1) = pack 'C', (($num >> 1) | ($num << 7) ^ 052); ### } ### } ### } for (@out) { $_ = &{ shift @fns }($_); } @out; } # Processing on read sub _read_deleted { my $value = shift; if ($value eq '*') { return 1; } elsif ($value eq ' ') { return 0; } undef; } sub get_all_records { my $self = shift; my $cursor = $self->prepare_select(@_); my $result = []; my @record; while (@record = $cursor->fetch()) { push @$result, [ @record ]; } $result; } # ############# # Write records # Write record, values of the fields are in the argument list. # Record is always undeleted sub set_record { my ($self, $num, @data) = @_; $self->NullError(); my $wproc = $self->{'field_wproc'}; if (defined $self->{'attached_index_columns'}) { my @nfs = keys %{$self->{'attached_index_columns'}}; my ($del, @old_data) = $self->get_record_nf($num, @nfs); local $^W = 0; for my $nf (@nfs) { if ($old_data[$nf] ne $data[$nf]) { for my $idx (@{$self->{'attached_index_columns'}{$nf}}) { $idx->delete($old_data[$nf], $num + 1); $idx->insert($data[$nf], $num + 1); } } } } for (my $i = 0; $i <= $#$wproc; $i++) { $data[$i] = &{ $wproc->[$i] }($data[$i]); } unshift @data, ' '; ### if ($self->{'encrypted'} ne "\000") { ### for my $data (@data) { ### for (my $i = 0; $i < length($data); $i++) { ### my $num = unpack 'C', substr($data, $i, 1); ### substr($data, $i, 1) = pack 'C', (($num << 3) | ($num >> 5) ^ 020); ### } ### } ### } $self->write_record($num, @data); } # Write record, fields are specified as hash, unspecified are set to # undef/empty sub set_record_hash { my ($self, $num, %data) = @_; $self->NullError(); $self->set_record($num, map { $data{$_} } $self->field_names ); } # Write record, fields specified as hash, unspecified will be # unchanged sub update_record_hash { my ($self, $num) = ( shift, shift ); $self->NullError(); my %olddata = $self->get_record_hash($num); return unless %olddata; $self->set_record_hash($num, %olddata, @_); } # Actually write the data (calling XBase::Base::write_record) and keep # the overall structure of the file correct; sub write_record { my ($self, $num) = (shift, shift); my $ret = $self->SUPER::write_record($num, @_) or return; if ($num > $self->last_record) { $self->SUPER::write_record($num + 1, "\x1a"); # add EOF $self->update_last_record($num) or return; } $self->update_last_change or return; $ret; } # Delete and undelete record sub delete_record { my ($self, $num) = @_; $self->NullError(); $self->write_record($num, "*"); } sub undelete_record { my ($self, $num) = @_; $self->NullError(); $self->write_record($num, " "); } # Update the last change date sub update_last_change { my $self = shift; return 1 if defined $self->{'updated_today'}; my ($y, $m, $d) = (localtime)[5, 4, 3]; $m++; $y -= 100 if $y >= 100; $self->write_to(1, pack "C3", ($y, $m, $d)) or return; $self->{'updated_today'} = 1; } # Update the number of records sub update_last_record { my ($self, $last) = @_; $last++; $self->write_to(4, pack "V", $last); $self->{'num_rec'} = $last; } # Creating new dbf file sub create { XBase->NullError(); my $class = shift; my %options = @_; if (ref $class) { %options = ( %$class, %options ); $class = ref $class; } my $version = $options{'version'}; if (not defined $version) { if (defined $options{'memofile'} and $options{'memofile'} =~ /\.fpt$/i) { $version = 0xf5; } else { $version = 3; } } my $key; for $key ( qw( field_names field_types field_lengths field_decimals ) ) { if (not defined $options{$key}) { __PACKAGE__->Error("Tag $key must be specified when creating new table\n"); return; } } my $needmemo = 0; my $fieldspack = ''; my $record_len = 1; my $i; for $i (0 .. $#{$options{'field_names'}}) { my $name = uc $options{'field_names'}[$i]; $name = "FIELD$i" unless defined $name; $name .= "\0"; my $type = $options{'field_types'}[$i]; $type = 'C' unless defined $type; my $length = $options{'field_lengths'}[$i]; my $decimal = $options{'field_decimals'}[$i]; if (not defined $length) { # defaults if ($type eq 'C') { $length = 64; } elsif ($type =~ /^[TD]$/) { $length = 8; } elsif ($type =~ /^[NF]$/) { $length = 8; } } # force correct lengths if ($type =~ /^[MBGP]$/) { $length = 10; $decimal = 0; } elsif ($type eq 'L') { $length = 1; $decimal = 0; } elsif ($type eq 'Y') { $length = 8; $decimal = 4; } if (not defined $decimal) { $decimal = 0; } $record_len += $length; my $offset = $record_len; if ($type eq 'C') { $decimal = int($length / 256); $length %= 256; } $fieldspack .= pack 'a11a1VCCvCvCa7C', $name, $type, $offset, $length, $decimal, 0, 0, 0, 0, '', 0; if ($type eq 'M') { $needmemo = 1; if ($version != 0x30) { $version |= 0x80; } } } $fieldspack .= "\x0d"; { local $^W = 0; $options{'codepage'} += 0; } my $header = pack 'C CCC V vvv CC a12 CC v', $version, 0, 0, 0, 0, (32 + length $fieldspack), $record_len, 0, 0, 0, '', 0, $options{'codepage'}, 0; $header .= $fieldspack; $header .= "\x1a"; my $tmp = $class->new(); my $basename = $options{'name'}; $basename =~ s/\.dbf$//i; my $newname = $options{'name'}; if (defined $newname and not $newname =~ /\.dbf$/) { $newname .= '.dbf'; } $tmp->create_file($newname, 0700) or return; $tmp->write_to(0, $header) or return; $tmp->update_last_change(); $tmp->close(); if ($needmemo) { require XBase::Memo; my $dbtname = $options{'memofile'}; if (not defined $dbtname) { $dbtname = $options{'name'}; if ($version == 0x30 or $version == 0xf5) { $dbtname =~ s/\.DBF$/.FPT/ or $dbtname =~ s/(\.dbf)?$/.fpt/; } else { $dbtname =~ s/\.DBF$/.DBT/ or $dbtname =~ s/(\.dbf)?$/.dbt/; } } my $dbttmp = XBase::Memo->new(); my $memoversion = ($version & 15); $memoversion = 5 if $version == 0x30; $dbttmp->create('name' => $dbtname, 'version' => $memoversion, 'dbf_filename' => $basename) or return; } return $class->new($options{'name'}); } # Drop the table sub drop { my $self = shift; my $filename = $self; if (ref $self) { if (defined $self->{'memo'}) { $self->{'memo'}->drop(); delete $self->{'memo'}; } return $self->SUPER::drop(); } XBase::Base::drop($filename); } # Lock and unlock sub locksh { my $self = shift; my $ret = $self->SUPER::locksh or return; if (defined $self->{'memo'}) { unless ($self->{'memo'}->locksh()) { $self->SUPER::unlock; return; } } $ret; } sub lockex { my $self = shift; my $ret = $self->SUPER::lockex or return; if (defined $self->{'memo'}) { unless ($self->{'memo'}->lockex()) { $self->SUPER::unlock; return; } } $ret; } sub unlock { my $self = shift; $self->{'memo'}->unlock() if defined $self->{'memo'}; $self->SUPER::unlock; } # # Attaching index file # sub attach_index { my ($self, $indexfile) = @_; require XBase::Index; my $index = $self->XBase::Index::new($indexfile) or do { print STDERR XBase->errstr, "\n"; $self->Error(XBase->errstr); return; }; print "Got index $index\n" if $XBase::Index::VERBOSE; my @tags = $index->tags; my @indexes; if (@tags) { for my $tag (@tags) { my $index = $self->XBase::Index::new($indexfile, 'tag' => $tag) or do { print STDERR XBase->errstr, "\n"; $self->Error(XBase->errstr); return; }; push @indexes, $index; } } else { @indexes = ( $index ); } for my $idx (@indexes) { my $key = $idx->{'key_string'}; my $num = $self->field_name_to_num($key); print "Got key string $key -> $num\n" if $XBase::Index::VERBOSE; $self->{'attached_index'} = [] unless defined $self->{'attached_index'}; push @{$self->{'attached_index'}}, $idx; push @{$self->{'attached_index_columns'}{$num}}, $idx; } 1; } # # Cursory select # sub prepare_select { my $self = shift; my $fieldnames = [ @_ ]; if (not @_) { $fieldnames = [ $self->field_names ] }; my $fieldnums = [ map { $self->field_name_to_num($_); } @$fieldnames ]; return bless [ $self, undef, $fieldnums, $fieldnames ], 'XBase::Cursor'; # object, recno, field numbers, field names } sub prepare_select_nf { my $self = shift; my @fieldnames = $self->field_names; if (@_) { @fieldnames = @fieldnames[ @_ ] } return $self->prepare_select(@fieldnames); } sub prepare_select_with_index { my ($self, $file) = ( shift, shift ); my @tagopts = (); if (ref $file eq 'ARRAY') { ### this is suboptimal ### interface but should suffice for the moment @tagopts = ('tag' => $file->[1]); if (defined $file->[2]) { push @tagopts, ('type' => $file->[2]); } $file = $file->[0]; } my $fieldnames = [ @_ ]; if (not @_) { $fieldnames = [ $self->field_names ] }; my $fieldnums = [ map { $self->field_name_to_num($_); } @$fieldnames ]; require XBase::Index; my $index = new XBase::Index $file, 'dbf' => $self, @tagopts or do { $self->Error(XBase->errstr); return; }; $index->prepare_select or do { $self->Error($index->errstr); return; }; return bless [ $self, undef, $fieldnums, $fieldnames, $index ], 'XBase::IndexCursor'; # object, recno, field numbers, field names, index file } package XBase::Cursor; use vars qw( @ISA ); @ISA = qw( XBase::Base ); sub fetch { my $self = shift; my ($xbase, $recno, $fieldnums, $fieldnames) = @$self; if (defined $recno) { $recno++; } else { $recno = 0; } my $lastrec = $xbase->last_record; while ($recno <= $lastrec) { my ($del, @result) = $xbase->get_record_nf($recno, @$fieldnums); if (@result and not $del) { $self->[1] = $recno; return @result; } $recno++; } return; } sub fetch_hashref { my $self = shift; my @data = $self->fetch; my $hashref = {}; if (@data) { @{$hashref}{ @{$self->[3]} } = @data; return $hashref; } return; } sub last_fetched { shift->[1]; } sub table { shift->[0]; } sub names { shift->[3]; } sub rewind { shift->[1] = undef; '0E0'; } sub attach_index { my $self = shift; require XBase::Index; } package XBase::IndexCursor; use vars qw( @ISA ); @ISA = qw( XBase::Cursor ); sub find_eq { my $self = shift; $self->[4]->prepare_select_eq(shift); } sub fetch { my $self = shift; my ($xbase, $recno, $fieldnums, $fieldnames, $index) = @$self; my ($key, $val); while (($key, $val) = $index->fetch) { my ($del, @result) = $xbase->get_record_nf($val - 1, @$fieldnums); unless ($del) { $self->[1] = $val; return @result; } } return; } # Indexed number the records starting from one, not zero. sub last_fetched { shift->[1] - 1; } 1; __END__

XBase - Perl module for reading and writing the dbf files

Index

Code Index:

NAME

SYNOPSIS

DESCRIPTION

General methods

Reading the data one by one

Writing the data

Sequentially reading the file

Dumping the content of the file

Errors and debugging

DATA TYPES

INDEX, LOCKS

INFORMATION SOURCE

VERSION

AVAILABLE FROM

AUTHOR

THANKS

SEE ALSO