#!/pro/bin/perl
package Spreadsheet::Read;
=head1 NAME
Spreadsheet::Read - Read the data from a spreadsheet
=head1 SYNOPSIS
use Spreadsheet::Read;
my $book = ReadData ("test.csv", sep => ";");
my $book = ReadData ("test.sxc");
my $book = ReadData ("test.ods");
my $book = ReadData ("test.xls");
my $book = ReadData ("test.xlsx");
my $book = ReadData ($fh, parser => "xls");
my $sheet = $book->[1]; # first datasheet
my $cell = $book->[1]{A3}; # content of field A3 of sheet 1
my $cell = $book->[1]{cell}[1][3]; # same, unformatted
=cut
use strict;
use warnings;
our $VERSION = "0.58";
sub Version { $VERSION }
use Carp;
use Exporter;
our @ISA = qw( Exporter );
our @EXPORT = qw( ReadData cell2cr cr2cell );
our @EXPORT_OK = qw( parses rows cellrow row );
use File::Temp qw( );
use Data::Dumper;
my @parsers = (
[ csv => "Text::CSV_XS", "0.71" ],
[ csv => "Text::CSV_PP", "1.17" ],
[ csv => "Text::CSV", "1.17" ],
[ ods => "Spreadsheet::ReadSXC", "0.20" ],
[ sxc => "Spreadsheet::ReadSXC", "0.20" ],
[ xls => "Spreadsheet::ParseExcel", "0.34" ],
[ xlsx => "Spreadsheet::ParseXLSX", "0.13" ],
[ xlsx => "Spreadsheet::XLSX", "0.13" ],
[ prl => "Spreadsheet::Perl", "" ],
# Helper modules
[ ios => "IO::Scalar", "" ],
[ dmp => "Data::Peek", "" ],
);
my %can = map { $_->[0] => 0 } @parsers;
for (@parsers) {
my ($flag, $mod, $vsn) = @$_;
$can{$flag} and next;
eval "require $mod; $vsn and ${mod}->VERSION ($vsn); \$can{\$flag} = '$mod'";
}
$can{sc} = __PACKAGE__; # SquirelCalc is built-in
my $debug = 0;
my %def_opts = (
rc => 1,
cells => 1,
attr => 0,
clip => undef, # $opt{cells};
strip => 0,
dtfmt => "yyyy-mm-dd", # Format 14
debug => 0,
parser => undef,
sep => undef,
quote => undef,
);
my @def_attr = (
type => "text",
fgcolor => undef,
bgcolor => undef,
font => undef,
size => undef,
format => undef,
halign => "left",
valign => "top",
bold => 0,
italic => 0,
uline => 0,
wrap => 0,
merged => 0,
hidden => 0,
locked => 0,
enc => "utf-8", # $ENV{LC_ALL} // $ENV{LANG} // ...
);
# Helper functions
sub _dump
{
my ($label, $ref) = @_;
if ($can{dmp}) {
print STDERR Data::Peek::DDumper ({ $label => $ref });
}
else {
print STDERR Data::Dumper->Dump ([$ref], [$label]);
}
} # _dump
sub _parser
{
my $type = shift or return "";
$type = lc $type;
# Aliases and fullnames
$type eq "excel" and return "xls";
$type eq "excel2007" and return "xlsx";
$type eq "oo" and return "sxc";
$type eq "ods" and return "sxc";
$type eq "openoffice" and return "sxc";
$type eq "libreoffice" and return "sxc";
$type eq "perl" and return "prl";
$type eq "squirelcalc" and return "sc";
return exists $can{$type} ? $type : "";
} # _parser
# Spreadsheet::Read::parses ("csv") or die "Cannot parse CSV"
sub parses
{
my $type = _parser (shift) or return 0;
return $can{$type};
} # parses
# cr2cell (4, 18) => "D18"
# No prototype to allow 'cr2cell (@rowcol)'
sub cr2cell
{
my ($c, $r) = @_;
defined $c && defined $r && $c > 0 && $r > 0 or return "";
my $cell = "";
while ($c) {
use integer;
substr $cell, 0, 0, chr (--$c % 26 + ord "A");
$c /= 26;
}
"$cell$r";
} # cr2cell
# cell2cr ("D18") => (4, 18)
sub cell2cr
{
my ($cc, $r) = (uc ($_[0]||"") =~ m/^([A-Z]+)([0-9]+)$/) or return (0, 0);
my $c = 0;
while ($cc =~ s/^([A-Z])//) {
$c = 26 * $c + 1 + ord ($1) - ord ("A");
}
($c, $r);
} # cell2cr
# my @row = cellrow ($book->[1], 1);
sub cellrow
{
my $sheet = shift or return;
ref $sheet eq "HASH" && exists $sheet->{cell} or return;
exists $sheet->{maxcol} && exists $sheet->{maxrow} or return;
my $row = shift or return;
$row > 0 && $row <= $sheet->{maxrow} or return;
my $s = $sheet->{cell};
map { $s->[$_][$row] } 1..$sheet->{maxcol};
} # cellrow
# my @row = row ($book->[1], 1);
sub row
{
my $sheet = shift or return;
ref $sheet eq "HASH" && exists $sheet->{cell} or return;
exists $sheet->{maxcol} && exists $sheet->{maxrow} or return;
my $row = shift or return;
$row > 0 && $row <= $sheet->{maxrow} or return;
map { $sheet->{cr2cell ($_, $row)} } 1..$sheet->{maxcol};
} # row
# Convert {cell}'s [column][row] to a [row][column] list
# my @rows = rows ($book->[1]);
sub rows
{
my $sheet = shift or return;
ref $sheet eq "HASH" && exists $sheet->{cell} or return;
exists $sheet->{maxcol} && exists $sheet->{maxrow} or return;
my $s = $sheet->{cell};
map {
my $r = $_;
[ map { $s->[$_][$r] } 1..$sheet->{maxcol} ];
} 1..$sheet->{maxrow};
} # rows
# If option "clip" is set, remove the trailing rows and
# columns in each sheet that contain no visible data
sub _clipsheets
{
my ($opt, $ref) = @_;
if (my $s = $opt->{strip} and $ref->[0]{sheets}) {
foreach my $sheet (1 .. $ref->[0]{sheets}) {
my $ss = $ref->[$sheet];
$ss->{maxrow} && $ss->{maxcol} or next;
foreach my $row (1 .. $ss->{maxrow}) {
foreach my $col (1 .. $ss->{maxcol}) {
for (($opt->{cells} ? $ss->{cell}[$col][$row] : ()),
($opt->{rc} ? $ss->{cr2cell ($col, $row)} : ())) {
defined or next;
$s & 2 and s/\s+$//;
$s & 1 and s/^\s+//;
}
}
}
}
}
$opt->{clip} or return $ref;
foreach my $sheet (1 .. $ref->[0]{sheets}) {
my $ss = $ref->[$sheet];
# Remove trailing empty columns
while ($ss->{maxcol} and not (
grep { defined && m/\S/ } @{$ss->{cell}[$ss->{maxcol}]})
) {
(my $col = cr2cell ($ss->{maxcol}, 1)) =~ s/1$//;
my $recol = qr{^$col(?=[0-9]+)$};
delete $ss->{$_} for grep m/$recol/, keys %{$ss};
$ss->{maxcol}--;
}
$ss->{maxcol} or $ss->{maxrow} = 0;
# Remove trailing empty rows
while ($ss->{maxrow} and not (
grep { defined && m/\S/ }
map { $ss->{cell}[$_][$ss->{maxrow}] }
1 .. $ss->{maxcol}
)) {
my $rerow = qr{^[A-Z]+$ss->{maxrow}$};
delete $ss->{$_} for grep m/$rerow/, keys %{$ss};
$ss->{maxrow}--;
}
$ss->{maxrow} or $ss->{maxcol} = 0;
}
$ref;
} # _clipsheets
# Convert a single color (index) to a color
sub _xls_color
{
my $clr = shift;
defined $clr or return undef;
$clr eq "#000000" and return undef;
$clr =~ m/^#[0-9a-fA-F]+$/ and return lc $clr;
$clr == 0 || $clr == 32767 and return undef; # Default fg color
return "#" . lc Spreadsheet::ParseExcel->ColorIdxToRGB ($clr);
} # _xls_color
# Convert a fill [ $pattern, $front_color, $back_color ] to a single background
sub _xls_fill
{
my ($p, $fg, $bg) = @_;
defined $p or return undef;
$p == 32767 and return undef; # Default fg color
$p == 0 && !defined $bg and return undef; # No fill bg color
$p == 1 and return _xls_color ($fg);
$bg < 8 || $bg > 63 and return undef; # see Workbook.pm#106
return _xls_color ($bg);
} # _xls_fill
sub ReadData
{
my $txt = shift or return;
my %opt;
if (@_) {
if (ref $_[0] eq "HASH") { %opt = %{shift @_} }
elsif (@_ % 2 == 0) { %opt = @_ }
}
exists $opt{rc} or $opt{rc} = $def_opts{rc};
exists $opt{cells} or $opt{cells} = $def_opts{cells};
exists $opt{attr} or $opt{attr} = $def_opts{attr};
exists $opt{clip} or $opt{clip} = $opt{cells};
exists $opt{strip} or $opt{strip} = $def_opts{strip};
exists $opt{dtfmt} or $opt{dtfmt} = $def_opts{dtfmt};
# $debug = $opt{debug} // 0;
$debug = defined $opt{debug} ? $opt{debug} : $def_opts{debug};
$debug > 4 and _dump (Options => \%opt);
my %parser_opts = map { $_ => $opt{$_} }
grep { !exists $def_opts{$_} }
keys %opt;
my $io_ref = ref ($txt) =~ m/GLOB|IO/ ? $txt : undef;
my $io_fil = $io_ref ? 0 : do { no warnings "newline"; -f $txt ? 1 : 0 };
my $io_txt = $io_ref || $io_fil ? 0 : 1;
$io_fil && ! -s $txt and return;
$io_ref && eof ($txt) and return;
if ($opt{parser} ? _parser ($opt{parser}) eq "csv"
: ($io_fil && $txt =~ m/\.(csv)$/i)) {
$can{csv} or croak "CSV parser not installed";
my $label = $io_fil ? $txt : "IO";
$debug and print STDERR "Opening CSV $label\n";
my @data = (
{ type => "csv",
parser => $can{csv},
version => $can{csv}->VERSION,
error => undef,
quote => '"',
sepchar => ',',
sheets => 1,
sheet => { $label => 1 },
},
{ label => $label,
maxrow => 0,
maxcol => 0,
cell => [],
attr => [],
},
);
my ($sep, $quo, $in) = (",", '"');
defined $opt{sep} and $sep = $opt{sep};
defined $opt{quote} and $quo = $opt{quote};
if ($io_fil) {
unless (defined $opt{quote} && defined $opt{sep}) {
open $in, "<", $txt or return;
$_ = <$in>;
$quo = defined $opt{quote} ? $opt{quote} : '"';
$sep = # If explicitly set, use it
defined $opt{sep} ? $opt{sep} :
# otherwise start auto-detect with quoted strings
m/["0-9];["0-9;]/ ? ";" :
m/["0-9],["0-9,]/ ? "," :
m/["0-9]\t["0-9,]/ ? "\t" :
# If neither, then for unquoted strings
m/\w;[\w;]/ ? ";" :
m/\w,[\w,]/ ? "," :
m/\w\t[\w,]/ ? "\t" :
"," ;
close $in;
}
open $in, "<", $txt or return;
}
else {
$in = $txt; # Now pray ...
}
$debug > 1 and print STDERR "CSV sep_char '$sep', quote_char '$quo'\n";
my $csv = $can{csv}->new ({
%parser_opts,
sep_char => ($data[0]{sepchar} = $sep),
quote_char => ($data[0]{quote} = $quo),
keep_meta_info => 1,
binary => 1,
auto_diag => 1,
}) or croak "Cannot create a csv ('$sep', '$quo') parser!";
while (my $row = $csv->getline ($in)) {
my @row = @$row or last;
my $r = ++$data[1]{maxrow};
@row > $data[1]{maxcol} and $data[1]{maxcol} = @row;
foreach my $c (0 .. $#row) {
my $val = $row[$c];
my $cell = cr2cell ($c + 1, $r);
$opt{rc} and $data[1]{cell}[$c + 1][$r] = $val;
$opt{cells} and $data[1]{$cell} = $val;
$opt{attr} and $data[1]{attr}[$c + 1][$r] = { @def_attr };
}
}
$csv->eof () or $data[0]{error} = [ $csv->error_diag ];
close $in;
for (@{$data[1]{cell}}) {
defined $_ or $_ = [];
}
return _clipsheets \%opt, [ @data ];
}
# From /etc/magic: Microsoft Office Document
if ($io_txt && _parser ($opt{parser}) !~ m/^xlsx?$/ &&
$txt =~ m/^(\376\067\0\043
|\320\317\021\340\241\261\032\341
|\333\245-\0\0\0)/x) {
$can{xls} or croak "Spreadsheet::ParseExcel not installed";
my $tmpfile;
if ($can{ios}) { # Do not use a temp file if IO::Scalar is available
$tmpfile = \$txt;
}
else {
$tmpfile = File::Temp->new (SUFFIX => ".xls", UNLINK => 1);
binmode $tmpfile;
print $tmpfile $txt;
close $tmpfile;
}
open $io_ref, "<", $tmpfile or return;
$io_txt = 0;
$opt{parser} = "xls";
}
my $_parser;
if ($opt{parser} ? ($_parser = _parser ($opt{parser})) =~ m/^xlsx?$/
: ($io_fil && $txt =~ m/\.(xlsx?)$/i && ($_parser = $1))) {
my $parse_type = $_parser =~ m/x$/i ? "XLSX" : "XLS";
$can{lc $parse_type} or croak "Parser for $parse_type is not installed";
my $oBook;
$debug and print STDERR "Opening $parse_type \$txt\n";
if ($io_ref) {
$oBook = $parse_type eq "XLSX"
? $can{xlsx} =~ m/::XLSX/
? Spreadsheet::XLSX->new ($io_ref)
: Spreadsheet::ParseXLSX->new (%parser_opts)->parse ($io_ref)
: Spreadsheet::ParseExcel->new (%parser_opts)->Parse ($io_ref);
}
else {
$oBook = $parse_type eq "XLSX"
? $can{xlsx} =~ m/::XLSX/
? Spreadsheet::XLSX->new ($txt)
: Spreadsheet::ParseXLSX->new (%parser_opts)->parse ($txt)
: Spreadsheet::ParseExcel->new (%parser_opts)->Parse ($txt);
}
$debug > 8 and _dump (oBook => $oBook);
my @data = ( {
type => lc $parse_type,
parser => $can{lc $parse_type},
version => $parse_type eq "XLSX"
? $can{xlsx} =~ m/::XLSX/
? $Spreadsheet::XLSX::VERSION
: $Spreadsheet::ParseXLSX::VERSION
: $Spreadsheet::ParseExcel::VERSION,
error => undef,
sheets => $oBook->{SheetCount} || 0,
sheet => {},
} );
# Overrule the default date format strings
my %def_fmt = (
0x0E => lc $opt{dtfmt}, # m-d-yy
0x0F => "d-mmm-yyyy", # d-mmm-yy
0x11 => "mmm-yyyy", # mmm-yy
0x16 => "yyyy-mm-dd hh:mm", # m-d-yy h:mm
);
$oBook->{FormatStr}{$_} = $def_fmt{$_} for keys %def_fmt;
my $oFmt = $parse_type eq "XLSX"
? $can{xlsx} =~ m/::XLSX/
? Spreadsheet::XLSX::Fmt2007->new
: Spreadsheet::ParseExcel::FmtDefault->new
: Spreadsheet::ParseExcel::FmtDefault->new;
$debug and print STDERR "\t$data[0]{sheets} sheets\n";
foreach my $oWkS (@{$oBook->{Worksheet}}) {
$opt{clip} and !defined $oWkS->{Cells} and next; # Skip empty sheets
my %sheet = (
label => $oWkS->{Name},
maxrow => 0,
maxcol => 0,
cell => [],
attr => [],
);
defined $sheet{label} or $sheet{label} = "-- unlabeled --";
exists $oWkS->{MaxRow} and $sheet{maxrow} = $oWkS->{MaxRow} + 1;
exists $oWkS->{MaxCol} and $sheet{maxcol} = $oWkS->{MaxCol} + 1;
my $sheet_idx = 1 + @data;
$debug and print STDERR "\tSheet $sheet_idx '$sheet{label}' $sheet{maxrow} x $sheet{maxcol}\n";
if (exists $oWkS->{MinRow}) {
if ($opt{clip}) {
my ($mr, $mc) = (-1, -1);
foreach my $r ($oWkS->{MinRow} .. $sheet{maxrow}) {
foreach my $c ($oWkS->{MinCol} .. $sheet{maxcol}) {
my $oWkC = $oWkS->{Cells}[$r][$c] or next;
defined (my $val = $oWkC->{Val}) or next;
$val =~ m/\S/ or next;
$r > $mr and $mr = $r;
$c > $mc and $mc = $c;
}
}
($sheet{maxrow}, $sheet{maxcol}) = ($mr + 1, $mc + 1);
}
foreach my $r ($oWkS->{MinRow} .. $sheet{maxrow}) {
foreach my $c ($oWkS->{MinCol} .. $sheet{maxcol}) {
my $oWkC = $oWkS->{Cells}[$r][$c] or next;
defined (my $val = $oWkC->{Val}) or next;
my $cell = cr2cell ($c + 1, $r + 1);
$opt{rc} and $sheet{cell}[$c + 1][$r + 1] = $val; # Original
my $fmt;
my $FmT = $oWkC->{Format};
if ($FmT) {
unless (ref $FmT) {
$fmt = $FmT;
$FmT = {};
}
}
else {
$FmT = {};
}
foreach my $attr (qw( AlignH AlignV FmtIdx Hidden Lock
Wrap )) {
exists $FmT->{$attr} or $FmT->{$attr} = 0;
}
exists $FmT->{Fill} or $FmT->{Fill} = [ 0 ];
exists $FmT->{Font} or $FmT->{Font} = undef;
unless (defined $fmt) {
$fmt = $FmT->{FmtIdx}
? $oBook->{FormatStr}{$FmT->{FmtIdx}}
: undef;
}
if ($oWkC->{Type} eq "Numeric") {
# Fixed in 0.33 and up
# see Spreadsheet/ParseExcel/FmtDefault.pm
$FmT->{FmtIdx} == 0x0e ||
$FmT->{FmtIdx} == 0x0f ||
$FmT->{FmtIdx} == 0x10 ||
$FmT->{FmtIdx} == 0x11 ||
$FmT->{FmtIdx} == 0x16 ||
(defined $fmt && $fmt =~ m{^[dmy][-\\/dmy]*$}) and
$oWkC->{Type} = "Date";
$FmT->{FmtIdx} == 0x09 ||
$FmT->{FmtIdx} == 0x0a ||
(defined $fmt && $fmt =~ m{^0+\.0+%$}) and
$oWkC->{Type} = "Percentage";
}
defined $fmt and $fmt =~ s/\\//g;
$opt{cells} and # Formatted value
$sheet{$cell} = $FmT && exists $def_fmt{$FmT->{FmtIdx}}
? $oFmt->ValFmt ($oWkC, $oBook)
: $oWkC->Value;
if ($opt{attr}) {
my $FnT = $FmT->{Font};
my $fmi = $FmT->{FmtIdx}
? $oBook->{FormatStr}{$FmT->{FmtIdx}}
: undef;
$fmi and $fmi =~ s/\\//g;
$sheet{attr}[$c + 1][$r + 1] = {
@def_attr,
type => lc $oWkC->{Type},
enc => $oWkC->{Code},
merged => $oWkC->{Merged} || 0,
hidden => $FmT->{Hidden} || 0,
locked => $FmT->{Lock} || 0,
format => $fmi,
halign => [ undef, qw( left center right
fill justify ), undef,
"equal_space" ]->[$FmT->{AlignH}],
valign => [ qw( top center bottom justify
equal_space )]->[$FmT->{AlignV}],
wrap => $FmT->{Wrap},
font => $FnT->{Name},
size => $FnT->{Height},
bold => $FnT->{Bold},
italic => $FnT->{Italic},
uline => $FnT->{Underline},
fgcolor => _xls_color ($FnT->{Color}),
bgcolor => _xls_fill (@{$FmT->{Fill}}),
};
}
}
}
}
for (@{$sheet{cell}}) {
defined $_ or $_ = [];
}
push @data, { %sheet };
# $data[0]{sheets}++;
if ($sheet{label} eq "-- unlabeled --") {
$sheet{label} = "";
}
else {
$data[0]{sheet}{$sheet{label}} = $#data;
}
}
return _clipsheets \%opt, [ @data ];
}
if ($opt{parser} ? _parser ($opt{parser}) eq "sc"
: $io_fil
? $txt =~ m/\.sc$/
: $txt =~ m/^# .*SquirrelCalc/) {
if ($io_ref) {
local $/;
my $x = <$txt>;
$txt = $x;
}
elsif ($io_fil) {
local $/;
open my $sc, "<", $txt or return;
$txt = <$sc>;
close $sc;
}
$txt =~ m/\S/ or return;
my @data = (
{ type => "sc",
parser => "Spreadsheet::Read",
version => $VERSION,
error => undef,
sheets => 1,
sheet => { sheet => 1 },
},
{ label => "sheet",
maxrow => 0,
maxcol => 0,
cell => [],
attr => [],
},
);
for (split m/\s*[\r\n]\s*/, $txt) {
if (m/^dimension.*of ([0-9]+) rows.*of ([0-9]+) columns/i) {
@{$data[1]}{qw(maxrow maxcol)} = ($1, $2);
next;
}
s/^r([0-9]+)c([0-9]+)\s*=\s*// or next;
my ($c, $r) = map { $_ + 1 } $2, $1;
if (m/.* \{(.*)}$/ or m/"(.*)"/) {
my $cell = cr2cell ($c, $r);
$opt{rc} and $data[1]{cell}[$c][$r] = $1;
$opt{cells} and $data[1]{$cell} = $1;
$opt{attr} and $data[1]{attr}[$c + 1][$r] = { @def_attr };
next;
}
# Now only formula's remain. Ignore for now
# r67c7 = [P2L] 2*(1000*r67c5-60)
}
for (@{$data[1]{cell}}) {
defined $_ or $_ = [];
}
return _clipsheets \%opt, [ @data ];
}
if ($opt{parser} ? _parser ($opt{parser}) eq "sxc"
: ($txt =~ m/^<\?xml/ or -f $txt)) {
$can{sxc} or croak "Spreadsheet::ReadSXC not installed";
my $sxc_options = { %parser_opts, OrderBySheet => 1 }; # New interface 0.20 and up
my $sxc;
if ($txt =~ m/\.(sxc|ods)$/i) {
$debug and print STDERR "Opening \U$1\E $txt\n";
$sxc = Spreadsheet::ReadSXC::read_sxc ($txt, $sxc_options) or return;
}
elsif ($txt =~ m/\.xml$/i) {
$debug and print STDERR "Opening XML $txt\n";
$sxc = Spreadsheet::ReadSXC::read_xml_file ($txt, $sxc_options) or return;
}
# need to test on pattern to prevent stat warning
# on filename with newline
elsif ($txt !~ m/^<\?xml/i and -f $txt) {
$debug and print STDERR "Opening XML $txt\n";
open my $f, "<", $txt or return;
local $/;
$txt = <$f>;
close $f;
}
!$sxc && $txt =~ m/^<\?xml/i and
$sxc = Spreadsheet::ReadSXC::read_xml_string ($txt, $sxc_options);
$debug > 8 and _dump (sxc => $sxc);
if ($sxc) {
my @data = ( {
type => "sxc",
parser => "Spreadsheet::ReadSXC",
version => $Spreadsheet::ReadSXC::VERSION,
error => undef,
sheets => 0,
sheet => {},
} );
my @sheets = ref $sxc eq "HASH" # < 0.20
? map {
{ label => $_,
data => $sxc->{$_},
}
} keys %$sxc
: @{$sxc};
foreach my $sheet (@sheets) {
my @sheet = @{$sheet->{data}};
my %sheet = (
label => $sheet->{label},
maxrow => scalar @sheet,
maxcol => 0,
cell => [],
attr => [],
);
my $sheet_idx = 1 + @data;
$debug and print STDERR "\tSheet $sheet_idx '$sheet{label}' $sheet{maxrow} rows\n";
foreach my $r (0 .. $#sheet) {
my @row = @{$sheet[$r]} or next;
foreach my $c (0 .. $#row) {
defined (my $val = $row[$c]) or next;
my $C = $c + 1;
$C > $sheet{maxcol} and $sheet{maxcol} = $C;
my $cell = cr2cell ($C, $r + 1);
$opt{rc} and $sheet{cell}[$C][$r + 1] = $val;
$opt{cells} and $sheet{$cell} = $val;
$opt{attr} and $sheet{attr}[$C][$r + 1] = { @def_attr };
}
}
for (@{$sheet{cell}}) {
defined $_ or $_ = [];
}
$debug and print STDERR "\tSheet $sheet_idx '$sheet{label}' $sheet{maxrow} x $sheet{maxcol}\n";
push @data, { %sheet };
$data[0]{sheets}++;
$data[0]{sheet}{$sheet->{label}} = $#data;
}
return _clipsheets \%opt, [ @data ];
}
}
return;
} # ReadData
1;
=head1 DESCRIPTION
Spreadsheet::Read tries to transparently read *any* spreadsheet and
return its content in a universal manner independent of the parsing
module that does the actual spreadsheet scanning.
For OpenOffice and/or LibreOffice this module uses Spreadsheet::ReadSXC
For Microsoft Excel this module uses Spreadsheet::ParseExcel,
Spreadsheet::ParseXLSX, or Spreadsheet::XLSX.
For CSV this module uses Text::CSV_XS or Text::CSV_PP.
For SquirrelCalc there is a very simplistic built-in parser
=head2 Data structure
The data is returned as an array reference:
$book = [
# Entry 0 is the overall control hash
{ sheets => 2,
sheet => {
"Sheet 1" => 1,
"Sheet 2" => 2,
},
type => "xls",
parser => "Spreadsheet::ParseExcel",
version => 0.59,
error => undef,
},
# Entry 1 is the first sheet
{ label => "Sheet 1",
maxrow => 2,
maxcol => 4,
cell => [ undef,
[ undef, 1 ],
[ undef, undef, undef, undef, undef, "Nugget" ],
],
A1 => 1,
B5 => "Nugget",
},
# Entry 2 is the second sheet
{ label => "Sheet 2",
:
:
To keep as close contact to spreadsheet users, row and column 1 have
index 1 too in the C<cell> element of the sheet hash, so cell "A1" is
the same as C<cell> [1, 1] (column first). To switch between the two,
there are two helper functions available: C<cell2cr ()> and C<cr2cell ()>.
The C<cell> hash entry contains unformatted data, while the hash entries
with the traditional labels contain the formatted values (if applicable).
The control hash (the first entry in the returned array ref), contains
some spreadsheet meta-data. The entry C<sheet> is there to be able to find
the sheets when accessing them by name:
my %sheet2 = %{$book->[$book->[0]{sheet}{"Sheet 2"}]};
=head2 Functions
=over 2
=item my $book = ReadData ($source [, option => value [, ... ]]);
=item my $book = ReadData ("file.csv", sep => ',', quote => '"');
=item my $book = ReadData ("file.xls", dtfmt => "yyyy-mm-dd");
=item my $book = ReadData ("file.ods");
=item my $book = ReadData ("file.sxc");
=item my $book = ReadData ("content.xml");
=item my $book = ReadData ($content);
=item my $book = ReadData ($fh, parser => "xls");
Tries to convert the given file, string, or stream to the data
structure described above.
Processing Excel data from a stream or content is supported through
a File::Temp temporary file or IO::Scalar when available.
ReadSXC does preserve sheet order as of version 0.20.
Currently supported options are:
=over 2
=item parser
Force the data to be parsed by a specific format. Possible values are
C<csv>, C<prl> (or C<perl>), C<sc> (or C<squirelcalc>), C<sxc> (or C<oo>,
C<ods>, C<openoffice>, C<libreoffice>) C<xls> (or C<excel>), and C<xlsx>
(or C<excel2007>).
When parsing streams, instead of files, it is highly recommended to pass
this option.
=item cells
Control the generation of named cells ("A1" etc). Default is true.
=item rc
Control the generation of the {cell}[c][r] entries. Default is true.
=item attr
Control the generation of the {attr}[c][r] entries. Default is false.
See L<Cell Attributes> below.
=item clip
If set, C<ReadData ()> will remove all trailing rows and columns per
sheet that have no visual data. If a sheet has no data at all, the
sheet will be skipped entirely when this attribute is true.
This option is only valid if C<cells> is true. The default value is
true if C<cells> is true, and false otherwise.
=item strip
If set, C<ReadData ()> will remove trailing- and/or leading-whitespace
from every field.
strip leading strailing
----- ------- ---------
0 n/a n/a
1 strip n/a
2 n/a strip
3 strip strip
=item sep
Set separator for CSV. Default is comma C<,>.
=item quote
Set quote character for CSV. Default is C<">.
=item dtfmt
Set the format for M$Excel date fields that are set to use the default
date format. The default format in Excel is 'm-d-yy', which is both
not year 2000 safe, nor very useful. The default is now 'yyyy-mm-dd',
which is more ISO-like.
Note that date formatting in M$Excel is not reliable at all, as it will
store/replace/change the date field separator in already stored formats
if you change your locale settings. So the above mentioned default can
be either "m-d-yy" OR "m/d/yy" depending on what that specific character
happened to be at the time the user saved the file.
=item debug
Enable some diagnostic messages to STDERR.
The value determines how much diagnostics are dumped (using Data::Peek).
A value of 9 and higher will dump the entire structure from the back-end
parser.
=back
All other attributes/options will be passed to the underlying parser if
that parser supports attributes.
=back
=head2 Using CSV
In case of CSV parsing, C<ReadData ()> will use the first line of the file
to auto-detect the separation character if the first argument is a file and
both C<sep> and C<quote> are not passed as attributes. Text::CSV_XS (or
Text::CSV_PP) is able to automatically detect and use C<\r> line endings).
CSV can parse streams too, but be sure to pass C<sep> and/or C<quote> if
these do not match the default C<,> and C<">.
When an error is found in the CSV, it is automatically reported (to STDERR).
The structure will store the error in C<< $ss->[0]{error} >> as anonymous
list returned by C<< $csv->error_diag >>. See Text::CSV_XS for documentation.
my $ss = ReadData ("bad.csv");
$ss->[0]{error} and say $ss->[0]{error}[1];
=head2 Functions
=over 4
=item my $cell = cr2cell (col, row)
C<cr2cell ()> converts a C<(column, row)> pair (1 based) to the
traditional cell notation:
my $cell = cr2cell ( 4, 14); # $cell now "D14"
my $cell = cr2cell (28, 4); # $cell now "AB4"
=item my ($col, $row) = cell2cr ($cell)
C<cell2cr ()> converts traditional cell notation to a C<(column, row)>
pair (1 based):
my ($col, $row) = cell2cr ("D14"); # returns ( 4, 14)
my ($col, $row) = cell2cr ("AB4"); # returns (28, 4)
=item my @row = row ($sheet, $row)
=item my @row = Spreadsheet::Read::row ($book->[1], 3)
Get full row of formatted values (like C<< $sheet->{A3} .. $sheet->{G3} >>)
Note that the indexes in the returned list are 0-based.
C<row ()> is not imported by default, so either specify it in the
use argument list, or call it fully qualified.
=item my @row = cellrow ($book, $row)
=item my @row = Spreadsheet::Read::cellrow ($book->[1], 3)
Get full row of unformatted values (like C<< $sheet->{cell}[1][3] .. $sheet->{cell}[7][3] >>)
Note that the indexes in the returned list are 0-based.
C<cellrow ()> is not imported by default, so either specify it in the
use argument list, or call it fully qualified.
=item my @rows = rows ($book)
=item my @rows = Spreadsheet::Read::rows ($book->[1])
Convert C<{cell}>'s C<[column][row]> to a C<[row][column]> list.
Note that the indexes in the returned list are 0-based, where the
index in the C<{cell}> entry is 1-based.
C<rows ()> is not imported by default, so either specify it in the
use argument list, or call it fully qualified.
=item parses ($format)
=item Spreadsheet::Read::parses ("CSV")
C<parses ()> returns Spreadsheet::Read's capability to parse the
required format.
C<parses ()> is not imported by default, so either specify it in the
use argument list, or call it fully qualified.
=item my $rs_version = Version ()
=item my $v = Spreadsheet::Read::Version ()
Returns the current version of Spreadsheet::Read.
C<Version ()> is not imported by default, so either specify it in the
use argument list, or call it fully qualified.
=back
=head2 Cell Attributes
If the constructor was called with C<attr> having a true value, effort
is made to analyze and store field attributes like this:
{ label => "Sheet 1",
maxrow => 5,
maxcol => 2,
cell => [ undef,
[ undef, 1 ],
[ undef, undef, undef, undef, undef, "Nugget" ],
],
attr => [ undef,
[ undef, {
type => "numeric",
fgcolor => "#ff0000",
bgcolor => undef,
font => "Arial",
size => undef,
format => "## ##0.00",
halign => "right",
valign => "top",
uline => 0,
bold => 0,
italic => 0,
wrap => 0,
merged => 0,
hidden => 0,
locked => 0,
enc => "utf-8",
}, ]
[ undef, undef, undef, undef, undef, {
type => "text",
fgcolor => "#e2e2e2",
bgcolor => undef,
font => "Letter Gothic",
size => 15,
format => undef,
halign => "left",
valign => "top",
uline => 0,
bold => 0,
italic => 0,
wrap => 0,
merged => 0,
hidden => 0,
locked => 0,
enc => "iso8859-1",
}, ]
A1 => 1,
B5 => "Nugget",
},
This has now been partially implemented, mainly for Excel, as the other
parsers do not (yet) support all of that. YMMV.
=head1 TOOLS
This modules comes with a few tools that perform tasks from the FAQ, like
"How do I select only column D through F from sheet 2 into a CSV file?"
If the module was installed without the tools, you can find them here:
https://github.com/Tux/Spreadsheet-Read/tree/master/examples
=head2 C<xlscat>
Show (parts of) a spreadsheet in plain text, CSV, or HTML
usage: xlscat [-s <sep>] [-L] [-n] [-A] [-u] [Selection] file.xls
[-c | -m] [-u] [Selection] file.xls
-i [-S sheets] file.xls
Generic options:
-v[#] Set verbose level (xlscat/xlsgrep)
-d[#] Set debug level (Spreadsheet::Read)
-u Use unformatted values
--noclip Do not strip empty sheets and
trailing empty rows and columns
-e <enc> Set encoding for input and output
-b <enc> Set encoding for input
-a <enc> Set encoding for output
Input CSV:
--in-sep=c Set input sep_char for CSV
Input XLS:
--dtfmt=fmt Specify the default date format to replace 'm-d-yy'
the default replacement is 'yyyy-mm-dd'
Output Text (default):
-s <sep> Use separator <sep>. Default '|', \n allowed
-L Line up the columns
-n Number lines (prefix with column number)
-A Show field attributes in ANSI escapes
Output Index only:
-i Show sheet names and size only
Output CSV:
-c Output CSV, separator = ','
-m Output CSV, separator = ';'
Output HTML:
-H Output HTML
Selection:
-S <sheets> Only print sheets <sheets>. 'all' is a valid set
Default only prints the first sheet
-R <rows> Only print rows <rows>. Default is 'all'
-C <cols> Only print columns <cols>. Default is 'all'
-F <flds> Only fields <flds> e.g. -FA3,B16
=head2 C<xlsgrep>
Show (parts of) a spreadsheet that match a pattern in plain text, CSV, or HTML
usage: xlsgrep [-s <sep>] [-L] [-n] [-A] [-u] [Selection] pattern file.xls
[-c | -m] [-u] [Selection] pattern file.xls
-i [-S sheets] pattern file.xls
Generic options:
-v[#] Set verbose level (xlscat/xlsgrep)
-d[#] Set debug level (Spreadsheet::Read)
-u Use unformatted values
--noclip Do not strip empty sheets and
trailing empty rows and columns
-e <enc> Set encoding for input and output
-b <enc> Set encoding for input
-a <enc> Set encoding for output
Input CSV:
--in-sep=c Set input sep_char for CSV
Input XLS:
--dtfmt=fmt Specify the default date format to replace 'm-d-yy'
the default replacement is 'yyyy-mm-dd'
Output Text (default):
-s <sep> Use separator <sep>. Default '|', \n allowed
-L Line up the columns
-n Number lines (prefix with column number)
-A Show field attributes in ANSI escapes
Grep options:
-i Ignore case
-w Match whole words only
-h[#] Show # header lines
Output CSV:
-c Output CSV, separator = ','
-m Output CSV, separator = ';'
Output HTML:
-H Output HTML
Selection:
-S <sheets> Only print sheets <sheets>. 'all' is a valid set
Default only prints the first sheet
-R <rows> Only print rows <rows>. Default is 'all'
-C <cols> Only print columns <cols>. Default is 'all'
-F <flds> Only fields <flds> e.g. -FA3,B16
=head2 C<ss2tk>
Show a spreadsheet in a perl/Tk spreadsheet widget
usage: ss2tk [-w <width>] [X11 options] file.xls [<pattern>]
-w <width> use <width> as default column width (4)
=head2 C<xls2csv>
Convert a spreadsheet to CSV. This is just a small wrapper over C<xlscat>.
usage: xls2csv [ -o file.csv ] file.xls
=head1 TODO
=over 4
=item Options
=over 2
=item Module Options
New Spreadsheet::Read options are bound to happen. I'm thinking of an
option that disables the reading of the data entirely to speed up an
index request (how many sheets/fields/columns). See C<xlscat -i>.
=item Parser options
Try to transparently support as many options as the encapsulated modules
support regarding (un)formatted values, (date) formats, hidden columns
rows or fields etc. These could be implemented like C<attr> above but
names C<meta>, or just be new values in the C<attr> hashes.
=back
=item Other spreadsheet formats
I consider adding any spreadsheet interface that offers a usable API.
=item Add an OO interface
Consider making the ref an object, though I currently don't see the big
advantage (yet). Maybe I'll make it so that it is a hybrid functional /
OO interface.
=back
=head1 SEE ALSO
=over 2
=item Text::CSV_XS, Text::CSV_PP
http://metacpan.org/release/Text-CSV_XS ,
http://metacpan.org/release/Text-CSV_PP , and
http://metacpan.org/release/Text-CSV .
Text::CSV is a wrapper over Text::CSV_XS (the fast XS version) and/or
Text::CSV_PP (the pure perl version)
=item Spreadsheet::ParseExcel
http://metacpan.org/release/Spreadsheet-ParseExcel
=item Spreadsheet::ParseXLSX
http://metacpan.org/release/Spreadsheet-ParseXLSX
=item Spreadsheet::XLSX
http://metacpan.org/release/Spreadsheet-XLSX
=item Spreadsheet::ReadSXC
http://metacpan.org/release/Spreadsheet-ReadSXC
=item Spreadsheet::BasicRead
http://metacpan.org/release/Spreadsheet-BasicRead
for xlscat likewise functionality (Excel only)
=item Spreadsheet::ConvertAA
http://metacpan.org/release/Spreadsheet-ConvertAA
for an alternative set of cell2cr () / cr2cell () pair
=item Spreadsheet::Perl
http://metacpan.org/release/Spreadsheet-Perl
offers a Pure Perl implementation of a spreadsheet engine. Users that want
this format to be supported in Spreadsheet::Read are hereby motivated to
offer patches. It's not high on my TODO-list.
=item Spreadsheet::CSV
http://metacpan.org/release/Spreadsheet-CSV
offers the interesting approach of seeing all supported spreadsheet formats
as if it were CSV, mimicking the Text::CSV_XS interface.
=item xls2csv
http://metacpan.org/release/xls2csv offers an alternative for my C<xlscat -c>,
in the xls2csv tool, but this tool focuses on character encoding
transparency, and requires some other modules.
=back
=head1 AUTHOR
H.Merijn Brand, <h.m.brand@xs4all.nl>
=head1 COPYRIGHT AND LICENSE
Copyright (C) 2005-2015 H.Merijn Brand
This library is free software; you can redistribute it and/or modify
it under the same terms as Perl itself.
=cut