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package Spreadsheet::WriteExcel::Worksheet; ############################################################################### # # Worksheet - A writer class for Excel Worksheets. # # # Used in conjunction with Spreadsheet::WriteExcel # # Copyright 2000-2010, John McNamara, jmcnamara@cpan.org # # Documentation after __END__ # use Exporter; use strict; use Carp; use Spreadsheet::WriteExcel::BIFFwriter; use Spreadsheet::WriteExcel::Format; use Spreadsheet::WriteExcel::Formula; use vars qw($VERSION @ISA); @ISA = qw(Spreadsheet::WriteExcel::BIFFwriter); $VERSION = '2.40'; ############################################################################### # # new() # # Constructor. Creates a new Worksheet object from a BIFFwriter object # sub new { my $class = shift; my $self = Spreadsheet::WriteExcel::BIFFwriter->new(); my $rowmax = 65536; my $colmax = 256; my $strmax = 0; $self->{_name} = $_[0]; $self->{_index} = $_[1]; $self->{_encoding} = $_[2]; $self->{_activesheet} = $_[3]; $self->{_firstsheet} = $_[4]; $self->{_url_format} = $_[5]; $self->{_parser} = $_[6]; $self->{_tempdir} = $_[7]; $self->{_str_total} = $_[8]; $self->{_str_unique} = $_[9]; $self->{_str_table} = $_[10]; $self->{_1904} = $_[11]; $self->{_compatibility} = $_[12]; $self->{_palette} = $_[13]; $self->{_sheet_type} = 0x0000; $self->{_ext_sheets} = []; $self->{_using_tmpfile} = 1; $self->{_filehandle} = ""; $self->{_fileclosed} = 0; $self->{_offset} = 0; $self->{_xls_rowmax} = $rowmax; $self->{_xls_colmax} = $colmax; $self->{_xls_strmax} = $strmax; $self->{_dim_rowmin} = undef; $self->{_dim_rowmax} = undef; $self->{_dim_colmin} = undef; $self->{_dim_colmax} = undef; $self->{_colinfo} = []; $self->{_selection} = [0, 0]; $self->{_panes} = []; $self->{_active_pane} = 3; $self->{_frozen} = 0; $self->{_frozen_no_split} = 1; $self->{_selected} = 0; $self->{_hidden} = 0; $self->{_active} = 0; $self->{_tab_color} = 0; $self->{_first_row} = 0; $self->{_first_col} = 0; $self->{_display_formulas} = 0; $self->{_display_headers} = 1; $self->{_display_zeros} = 1; $self->{_display_arabic} = 0; $self->{_paper_size} = 0x0; $self->{_orientation} = 0x1; $self->{_header} = ''; $self->{_footer} = ''; $self->{_header_encoding} = 0; $self->{_footer_encoding} = 0; $self->{_hcenter} = 0; $self->{_vcenter} = 0; $self->{_margin_header} = 0.50; $self->{_margin_footer} = 0.50; $self->{_margin_left} = 0.75; $self->{_margin_right} = 0.75; $self->{_margin_top} = 1.00; $self->{_margin_bottom} = 1.00; $self->{_title_rowmin} = undef; $self->{_title_rowmax} = undef; $self->{_title_colmin} = undef; $self->{_title_colmax} = undef; $self->{_print_rowmin} = undef; $self->{_print_rowmax} = undef; $self->{_print_colmin} = undef; $self->{_print_colmax} = undef; $self->{_print_gridlines} = 1; $self->{_screen_gridlines} = 1; $self->{_print_headers} = 0; $self->{_page_order} = 0; $self->{_black_white} = 0; $self->{_draft_quality} = 0; $self->{_print_comments} = 0; $self->{_page_start} = 1; $self->{_custom_start} = 0; $self->{_fit_page} = 0; $self->{_fit_width} = 0; $self->{_fit_height} = 0; $self->{_hbreaks} = []; $self->{_vbreaks} = []; $self->{_protect} = 0; $self->{_password} = undef; $self->{_col_sizes} = {}; $self->{_row_sizes} = {}; $self->{_col_formats} = {}; $self->{_row_formats} = {}; $self->{_zoom} = 100; $self->{_print_scale} = 100; $self->{_page_view} = 0; $self->{_leading_zeros} = 0; $self->{_outline_row_level} = 0; $self->{_outline_style} = 0; $self->{_outline_below} = 1; $self->{_outline_right} = 1; $self->{_outline_on} = 1; $self->{_write_match} = []; $self->{_object_ids} = []; $self->{_images} = {}; $self->{_images_array} = []; $self->{_charts} = {}; $self->{_charts_array} = []; $self->{_comments} = {}; $self->{_comments_array} = []; $self->{_comments_author} = ''; $self->{_comments_author_enc} = 0; $self->{_comments_visible} = 0; $self->{_filter_area} = []; $self->{_filter_count} = 0; $self->{_filter_on} = 0; $self->{_writing_url} = 0; $self->{_db_indices} = []; $self->{_validations} = []; bless $self, $class; $self->_initialize(); return $self; } ############################################################################### # # _initialize() # # Open a tmp file to store the majority of the Worksheet data. If this fails, # for example due to write permissions, store the data in memory. This can be # slow for large files. # sub _initialize { my $self = shift; my $fh; my $tmp_dir; # The following code is complicated by Windows limitations. Porters can # choose a more direct method. # In the default case we use IO::File->new_tmpfile(). This may fail, in # particular with IIS on Windows, so we allow the user to specify a temp # directory via File::Temp. # if (defined $self->{_tempdir}) { # Delay loading File:Temp to reduce the module dependencies. eval { require File::Temp }; die "The File::Temp module must be installed in order ". "to call set_tempdir().\n" if $@; # Trap but ignore File::Temp errors. eval { $fh = File::Temp::tempfile(DIR => $self->{_tempdir}) }; # Store the failed tmp dir in case of errors. $tmp_dir = $self->{_tempdir} || File::Spec->tmpdir if not $fh; } else { $fh = IO::File->new_tmpfile(); # Store the failed tmp dir in case of errors. $tmp_dir = "POSIX::tmpnam() directory" if not $fh; } # Check if the temp file creation was successful. Else store data in memory. if ($fh) { # binmode file whether platform requires it or not. binmode($fh); # Store filehandle $self->{_filehandle} = $fh; } else { # Set flag to store data in memory if XX::tempfile() failed. $self->{_using_tmpfile} = 0; if ($self->{_index} == 0 && $^W) { my $dir = $self->{_tempdir} || File::Spec->tmpdir(); warn "Unable to create temp files in $tmp_dir. Data will be ". "stored in memory. Refer to set_tempdir() in the ". "Spreadsheet::WriteExcel documentation.\n" ; } } } ############################################################################### # # _close() # # Add data to the beginning of the workbook (note the reverse order) # and to the end of the workbook. # sub _close { my $self = shift; ################################################ # Prepend in reverse order!! # # Prepend the sheet dimensions $self->_store_dimensions(); # Prepend the autofilter filters. $self->_store_autofilters; # Prepend the sheet autofilter info. $self->_store_autofilterinfo(); # Prepend the sheet filtermode record. $self->_store_filtermode(); # Prepend the COLINFO records if they exist if (@{$self->{_colinfo}}){ my @colinfo = @{$self->{_colinfo}}; while (@colinfo) { my $arrayref = pop @colinfo; $self->_store_colinfo(@$arrayref); } } # Prepend the DEFCOLWIDTH record $self->_store_defcol(); # Prepend the sheet password $self->_store_password(); # Prepend the sheet protection $self->_store_protect(); $self->_store_obj_protect(); # Prepend the page setup $self->_store_setup(); # Prepend the bottom margin $self->_store_margin_bottom(); # Prepend the top margin $self->_store_margin_top(); # Prepend the right margin $self->_store_margin_right(); # Prepend the left margin $self->_store_margin_left(); # Prepend the page vertical centering $self->_store_vcenter(); # Prepend the page horizontal centering $self->_store_hcenter(); # Prepend the page footer $self->_store_footer(); # Prepend the page header $self->_store_header(); # Prepend the vertical page breaks $self->_store_vbreak(); # Prepend the horizontal page breaks $self->_store_hbreak(); # Prepend WSBOOL $self->_store_wsbool(); # Prepend the default row height. $self->_store_defrow(); # Prepend GUTS $self->_store_guts(); # Prepend GRIDSET $self->_store_gridset(); # Prepend PRINTGRIDLINES $self->_store_print_gridlines(); # Prepend PRINTHEADERS $self->_store_print_headers(); # # End of prepend. Read upwards from here. ################################################ # Append $self->_store_table(); $self->_store_images(); $self->_store_charts(); $self->_store_filters(); $self->_store_comments(); $self->_store_window2(); $self->_store_page_view(); $self->_store_zoom(); $self->_store_panes(@{$self->{_panes}}) if @{$self->{_panes}}; $self->_store_selection(@{$self->{_selection}}); $self->_store_validation_count(); $self->_store_validations(); $self->_store_tab_color(); $self->_store_eof(); # Prepend the BOF and INDEX records $self->_store_index(); $self->_store_bof(0x0010); } ############################################################################### # # _compatibility_mode() # # Set the compatibility mode. # # See the explanation in Workbook::compatibility_mode(). This private method # is mainly used for test purposes. # sub _compatibility_mode { my $self = shift; if (defined($_[0])) { $self->{_compatibility} = $_[0]; } else { $self->{_compatibility} = 1; } } ############################################################################### # # get_name(). # # Retrieve the worksheet name. # # Note, there is no set_name() method because names are used in formulas and # converted to internal indices. Allowing the user to change sheet names # after they have been set in add_worksheet() is asking for trouble. # sub get_name { my $self = shift; return $self->{_name}; } ############################################################################### # # get_data(). # # Retrieves data from memory in one chunk, or from disk in $buffer # sized chunks. # sub get_data { my $self = shift; my $buffer = 4096; my $tmp; # Return data stored in memory if (defined $self->{_data}) { $tmp = $self->{_data}; $self->{_data} = undef; my $fh = $self->{_filehandle}; seek($fh, 0, 0) if $self->{_using_tmpfile}; return $tmp; } # Return data stored on disk if ($self->{_using_tmpfile}) { return $tmp if read($self->{_filehandle}, $tmp, $buffer); } # No data to return return undef; } ############################################################################### # # select() # # Set this worksheet as a selected worksheet, i.e. the worksheet has its tab # highlighted. # sub select { my $self = shift; $self->{_hidden} = 0; # Selected worksheet can't be hidden. $self->{_selected} = 1; } ############################################################################### # # activate() # # Set this worksheet as the active worksheet, i.e. the worksheet that is # displayed when the workbook is opened. Also set it as selected. # sub activate { my $self = shift; $self->{_hidden} = 0; # Active worksheet can't be hidden. $self->{_selected} = 1; ${$self->{_activesheet}} = $self->{_index}; } ############################################################################### # # hide() # # Hide this worksheet. # sub hide { my $self = shift; $self->{_hidden} = 1; # A hidden worksheet shouldn't be active or selected. $self->{_selected} = 0; ${$self->{_activesheet}} = 0; ${$self->{_firstsheet}} = 0; } ############################################################################### # # set_first_sheet() # # Set this worksheet as the first visible sheet. This is necessary # when there are a large number of worksheets and the activated # worksheet is not visible on the screen. # sub set_first_sheet { my $self = shift; $self->{_hidden} = 0; # Active worksheet can't be hidden. ${$self->{_firstsheet}} = $self->{_index}; } ############################################################################### # # protect($password) # # Set the worksheet protection flag to prevent accidental modification and to # hide formulas if the locked and hidden format properties have been set. # sub protect { my $self = shift; $self->{_protect} = 1; $self->{_password} = $self->_encode_password($_[0]) if defined $_[0]; } ############################################################################### # # set_column($firstcol, $lastcol, $width, $format, $hidden, $level) # # Set the width of a single column or a range of columns. # See also: _store_colinfo # sub set_column { my $self = shift; my @data = @_; my $cell = $data[0]; # Check for a cell reference in A1 notation and substitute row and column if ($cell =~ /^\D/) { @data = $self->_substitute_cellref(@_); # Returned values $row1 and $row2 aren't required here. Remove them. shift @data; # $row1 splice @data, 1, 1; # $row2 } return if @data < 3; # Ensure at least $firstcol, $lastcol and $width return if not defined $data[0]; # Columns must be defined. return if not defined $data[1]; # Assume second column is the same as first if 0. Avoids KB918419 bug. $data[1] = $data[0] if $data[1] == 0; # Ensure 2nd col is larger than first. Also for KB918419 bug. ($data[0], $data[1]) = ($data[1], $data[0]) if $data[0] > $data[1]; # Limit columns to Excel max of 255. $data[0] = 255 if $data[0] > 255; $data[1] = 255 if $data[1] > 255; push @{$self->{_colinfo}}, [ @data ]; # Store the col sizes for use when calculating image vertices taking # hidden columns into account. Also store the column formats. # my $width = $data[4] ? 0 : $data[2]; # Set width to zero if col is hidden $width ||= 0; # Ensure width isn't undef. my $format = $data[3]; my ($firstcol, $lastcol) = @data; foreach my $col ($firstcol .. $lastcol) { $self->{_col_sizes}->{$col} = $width; $self->{_col_formats}->{$col} = $format if defined $format; } } ############################################################################### # # set_selection() # # Set which cell or cells are selected in a worksheet: see also the # sub _store_selection # sub set_selection { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } $self->{_selection} = [ @_ ]; } ############################################################################### # # freeze_panes() # # Set panes and mark them as frozen. See also _store_panes(). # sub freeze_panes { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } # Extra flag indicated a split and freeze. $self->{_frozen_no_split} = 0 if $_[4]; $self->{_frozen} = 1; $self->{_panes} = [ @_ ]; } ############################################################################### # # split_panes() # # Set panes and mark them as split. See also _store_panes(). # sub split_panes { my $self = shift; $self->{_frozen} = 0; $self->{_frozen_no_split} = 0; $self->{_panes} = [ @_ ]; } # Older method name for backwards compatibility. *thaw_panes = *split_panes; ############################################################################### # # set_portrait() # # Set the page orientation as portrait. # sub set_portrait { my $self = shift; $self->{_orientation} = 1; } ############################################################################### # # set_landscape() # # Set the page orientation as landscape. # sub set_landscape { my $self = shift; $self->{_orientation} = 0; } ############################################################################### # # set_page_view() # # Set the page view mode for Mac Excel. # sub set_page_view { my $self = shift; $self->{_page_view} = defined $_[0] ? $_[0] : 1; } ############################################################################### # # set_tab_color() # # Set the colour of the worksheet colour. # sub set_tab_color { my $self = shift; my $color = &Spreadsheet::WriteExcel::Format::_get_color($_[0]); $color = 0 if $color == 0x7FFF; # Default color. $self->{_tab_color} = $color; } ############################################################################### # # set_paper() # # Set the paper type. Ex. 1 = US Letter, 9 = A4 # sub set_paper { my $self = shift; $self->{_paper_size} = $_[0] || 0; } ############################################################################### # # set_header() # # Set the page header caption and optional margin. # sub set_header { my $self = shift; my $string = $_[0] || ''; my $margin = $_[1] || 0.50; my $encoding = $_[2] || 0; # Handle utf8 strings in perl 5.8. if ($] >= 5.008) { require Encode; if (Encode::is_utf8($string)) { $string = Encode::encode("UTF-16BE", $string); $encoding = 1; } } my $limit = $encoding ? 255 *2 : 255; if (length $string >= $limit) { carp 'Header string must be less than 255 characters'; return; } $self->{_header} = $string; $self->{_margin_header} = $margin; $self->{_header_encoding} = $encoding; } ############################################################################### # # set_footer() # # Set the page footer caption and optional margin. # sub set_footer { my $self = shift; my $string = $_[0] || ''; my $margin = $_[1] || 0.50; my $encoding = $_[2] || 0; # Handle utf8 strings in perl 5.8. if ($] >= 5.008) { require Encode; if (Encode::is_utf8($string)) { $string = Encode::encode("UTF-16BE", $string); $encoding = 1; } } my $limit = $encoding ? 255 *2 : 255; if (length $string >= $limit) { carp 'Footer string must be less than 255 characters'; return; } $self->{_footer} = $string; $self->{_margin_footer} = $margin; $self->{_footer_encoding} = $encoding; } ############################################################################### # # center_horizontally() # # Center the page horizontally. # sub center_horizontally { my $self = shift; if (defined $_[0]) { $self->{_hcenter} = $_[0]; } else { $self->{_hcenter} = 1; } } ############################################################################### # # center_vertically() # # Center the page horizontally. # sub center_vertically { my $self = shift; if (defined $_[0]) { $self->{_vcenter} = $_[0]; } else { $self->{_vcenter} = 1; } } ############################################################################### # # set_margins() # # Set all the page margins to the same value in inches. # sub set_margins { my $self = shift; $self->set_margin_left($_[0]); $self->set_margin_right($_[0]); $self->set_margin_top($_[0]); $self->set_margin_bottom($_[0]); } ############################################################################### # # set_margins_LR() # # Set the left and right margins to the same value in inches. # sub set_margins_LR { my $self = shift; $self->set_margin_left($_[0]); $self->set_margin_right($_[0]); } ############################################################################### # # set_margins_TB() # # Set the top and bottom margins to the same value in inches. # sub set_margins_TB { my $self = shift; $self->set_margin_top($_[0]); $self->set_margin_bottom($_[0]); } ############################################################################### # # set_margin_left() # # Set the left margin in inches. # sub set_margin_left { my $self = shift; $self->{_margin_left} = defined $_[0] ? $_[0] : 0.75; } ############################################################################### # # set_margin_right() # # Set the right margin in inches. # sub set_margin_right { my $self = shift; $self->{_margin_right} = defined $_[0] ? $_[0] : 0.75; } ############################################################################### # # set_margin_top() # # Set the top margin in inches. # sub set_margin_top { my $self = shift; $self->{_margin_top} = defined $_[0] ? $_[0] : 1.00; } ############################################################################### # # set_margin_bottom() # # Set the bottom margin in inches. # sub set_margin_bottom { my $self = shift; $self->{_margin_bottom} = defined $_[0] ? $_[0] : 1.00; } ############################################################################### # # repeat_rows($first_row, $last_row) # # Set the rows to repeat at the top of each printed page. See also the # _store_name_xxxx() methods in Workbook.pm. # sub repeat_rows { my $self = shift; $self->{_title_rowmin} = $_[0]; $self->{_title_rowmax} = $_[1] || $_[0]; # Second row is optional } ############################################################################### # # repeat_columns($first_col, $last_col) # # Set the columns to repeat at the left hand side of each printed page. # See also the _store_names() methods in Workbook.pm. # sub repeat_columns { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); # Returned values $row1 and $row2 aren't required here. Remove them. shift @_; # $row1 splice @_, 1, 1; # $row2 } $self->{_title_colmin} = $_[0]; $self->{_title_colmax} = $_[1] || $_[0]; # Second col is optional } ############################################################################### # # print_area($first_row, $first_col, $last_row, $last_col) # # Set the area of each worksheet that will be printed. See also the # _store_names() methods in Workbook.pm. # sub print_area { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } return if @_ != 4; # Require 4 parameters $self->{_print_rowmin} = $_[0]; $self->{_print_colmin} = $_[1]; $self->{_print_rowmax} = $_[2]; $self->{_print_colmax} = $_[3]; } ############################################################################### # # autofilter($first_row, $first_col, $last_row, $last_col) # # Set the autofilter area in the worksheet. # sub autofilter { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } return if @_ != 4; # Require 4 parameters my ($row1, $col1, $row2, $col2) = @_; # Reverse max and min values if necessary. ($row1, $row2) = ($row2, $row1) if $row2 < $row1; ($col1, $col2) = ($col2, $col1) if $col2 < $col1; # Store the Autofilter information $self->{_filter_area} = [$row1, $row2, $col1, $col2]; $self->{_filter_count} = 1+ $col2 -$col1; } ############################################################################### # # filter_column($column, $criteria, ...) # # Set the column filter criteria. # sub filter_column { my $self = shift; my $col = $_[0]; my $expression = $_[1]; croak "Must call autofilter() before filter_column()" unless $self->{_filter_count}; croak "Incorrect number of arguments to filter_column()" unless @_ == 2; # Check for a column reference in A1 notation and substitute. if ($col =~ /^\D/) { # Convert col ref to a cell ref and then to a col number. (undef, $col) = $self->_substitute_cellref($col . '1'); } my (undef, undef, $col_first, $col_last) = @{$self->{_filter_area}}; # Reject column if it is outside filter range. if ($col < $col_first or $col > $col_last) { croak "Column '$col' outside autofilter() column range " . "($col_first .. $col_last)"; } my @tokens = $self->_extract_filter_tokens($expression); croak "Incorrect number of tokens in expression '$expression'" unless (@tokens == 3 or @tokens == 7); @tokens = $self->_parse_filter_expression($expression, @tokens); $self->{_filter_cols}->{$col} = [@tokens]; $self->{_filter_on} = 1; } ############################################################################### # # _extract_filter_tokens($expression) # # Extract the tokens from the filter expression. The tokens are mainly non- # whitespace groups. The only tricky part is to extract string tokens that # contain whitespace and/or quoted double quotes (Excel's escaped quotes). # # Examples: 'x < 2000' # 'x > 2000 and x < 5000' # 'x = "foo"' # 'x = "foo bar"' # 'x = "foo "" bar"' # sub _extract_filter_tokens { my $self = shift; my $expression = $_[0]; return unless $expression; my @tokens = ($expression =~ /"(?:[^"]|"")*"|\S+/g); #" # Remove leading and trailing quotes and unescape other quotes for (@tokens) { s/^"//; #" s/"$//; #" s/""/"/g; #" } return @tokens; } ############################################################################### # # _parse_filter_expression(@token) # # Converts the tokens of a possibly conditional expression into 1 or 2 # sub expressions for further parsing. # # Examples: # ('x', '==', 2000) -> exp1 # ('x', '>', 2000, 'and', 'x', '<', 5000) -> exp1 and exp2 # sub _parse_filter_expression { my $self = shift; my $expression = shift; my @tokens = @_; # The number of tokens will be either 3 (for 1 expression) # or 7 (for 2 expressions). # if (@tokens == 7) { my $conditional = $tokens[3]; if ($conditional =~ /^(and|&&)$/) { $conditional = 0; } elsif ($conditional =~ /^(or|\|\|)$/) { $conditional = 1; } else { croak "Token '$conditional' is not a valid conditional " . "in filter expression '$expression'"; } my @expression_1 = $self->_parse_filter_tokens($expression, @tokens[0, 1, 2]); my @expression_2 = $self->_parse_filter_tokens($expression, @tokens[4, 5, 6]); return (@expression_1, $conditional, @expression_2); } else { return $self->_parse_filter_tokens($expression, @tokens); } } ############################################################################### # # _parse_filter_tokens(@token) # # Parse the 3 tokens of a filter expression and return the operator and token. # sub _parse_filter_tokens { my $self = shift; my $expression = shift; my @tokens = @_; my %operators = ( '==' => 2, '=' => 2, '=~' => 2, 'eq' => 2, '!=' => 5, '!~' => 5, 'ne' => 5, '<>' => 5, '<' => 1, '<=' => 3, '>' => 4, '>=' => 6, ); my $operator = $operators{$tokens[1]}; my $token = $tokens[2]; # Special handling of "Top" filter expressions. if ($tokens[0] =~ /^top|bottom$/i) { my $value = $tokens[1]; if ($value =~ /\D/ or $value < 1 or $value > 500) { croak "The value '$value' in expression '$expression' " . "must be in the range 1 to 500"; } $token = lc $token; if ($token ne 'items' and $token ne '%') { croak "The type '$token' in expression '$expression' " . "must be either 'items' or '%'"; } if ($tokens[0] =~ /^top$/i) { $operator = 30; } else { $operator = 32; } if ($tokens[2] eq '%') { $operator++; } $token = $value; } if (not $operator and $tokens[0]) { croak "Token '$tokens[1]' is not a valid operator " . "in filter expression '$expression'"; } # Special handling for Blanks/NonBlanks. if ($token =~ /^blanks|nonblanks$/i) { # Only allow Equals or NotEqual in this context. if ($operator != 2 and $operator != 5) { croak "The operator '$tokens[1]' in expression '$expression' " . "is not valid in relation to Blanks/NonBlanks'"; } $token = lc $token; # The operator should always be 2 (=) to flag a "simple" equality in # the binary record. Therefore we convert <> to =. if ($token eq 'blanks') { if ($operator == 5) { $operator = 2; $token = 'nonblanks'; } } else { if ($operator == 5) { $operator = 2; $token = 'blanks'; } } } # if the string token contains an Excel match character then change the # operator type to indicate a non "simple" equality. if ($operator == 2 and $token =~ /[*?]/) { $operator = 22; } return ($operator, $token); } ############################################################################### # # hide_gridlines() # # Set the option to hide gridlines on the screen and the printed page. # There are two ways of doing this in the Excel BIFF format: The first is by # setting the DspGrid field of the WINDOW2 record, this turns off the screen # and subsequently the print gridline. The second method is to via the # PRINTGRIDLINES and GRIDSET records, this turns off the printed gridlines # only. The first method is probably sufficient for most cases. The second # method is supported for backwards compatibility. Porters take note. # sub hide_gridlines { my $self = shift; my $option = $_[0]; $option = 1 unless defined $option; # Default to hiding printed gridlines if ($option == 0) { $self->{_print_gridlines} = 1; # 1 = display, 0 = hide $self->{_screen_gridlines} = 1; } elsif ($option == 1) { $self->{_print_gridlines} = 0; $self->{_screen_gridlines} = 1; } else { $self->{_print_gridlines} = 0; $self->{_screen_gridlines} = 0; } } ############################################################################### # # print_row_col_headers() # # Set the option to print the row and column headers on the printed page. # See also the _store_print_headers() method below. # sub print_row_col_headers { my $self = shift; if (defined $_[0]) { $self->{_print_headers} = $_[0]; } else { $self->{_print_headers} = 1; } } ############################################################################### # # fit_to_pages($width, $height) # # Store the vertical and horizontal number of pages that will define the # maximum area printed. See also _store_setup() and _store_wsbool() below. # sub fit_to_pages { my $self = shift; $self->{_fit_page} = 1; $self->{_fit_width} = $_[0] || 0; $self->{_fit_height} = $_[1] || 0; } ############################################################################### # # set_h_pagebreaks(@breaks) # # Store the horizontal page breaks on a worksheet. # sub set_h_pagebreaks { my $self = shift; push @{$self->{_hbreaks}}, @_; } ############################################################################### # # set_v_pagebreaks(@breaks) # # Store the vertical page breaks on a worksheet. # sub set_v_pagebreaks { my $self = shift; push @{$self->{_vbreaks}}, @_; } ############################################################################### # # set_zoom($scale) # # Set the worksheet zoom factor. # sub set_zoom { my $self = shift; my $scale = $_[0] || 100; # Confine the scale to Excel's range if ($scale < 10 or $scale > 400) { carp "Zoom factor $scale outside range: 10 <= zoom <= 400"; $scale = 100; } $self->{_zoom} = int $scale; } ############################################################################### # # set_print_scale($scale) # # Set the scale factor for the printed page. # sub set_print_scale { my $self = shift; my $scale = $_[0] || 100; # Confine the scale to Excel's range if ($scale < 10 or $scale > 400) { carp "Print scale $scale outside range: 10 <= zoom <= 400"; $scale = 100; } # Turn off "fit to page" option $self->{_fit_page} = 0; $self->{_print_scale} = int $scale; } ############################################################################### # # keep_leading_zeros() # # Causes the write() method to treat integers with a leading zero as a string. # This ensures that any leading zeros such, as in zip codes, are maintained. # sub keep_leading_zeros { my $self = shift; if (defined $_[0]) { $self->{_leading_zeros} = $_[0]; } else { $self->{_leading_zeros} = 1; } } ############################################################################### # # show_comments() # # Make any comments in the worksheet visible. # sub show_comments { my $self = shift; $self->{_comments_visible} = defined $_[0] ? $_[0] : 1; } ############################################################################### # # set_comments_author() # # Set the default author of the cell comments. # sub set_comments_author { my $self = shift; $self->{_comments_author} = defined $_[0] ? $_[0] : ''; $self->{_comments_author_enc} = $_[1] ? 1 : 0; } ############################################################################### # # right_to_left() # # Display the worksheet right to left for some eastern versions of Excel. # sub right_to_left { my $self = shift; $self->{_display_arabic} = defined $_[0] ? $_[0] : 1; } ############################################################################### # # hide_zero() # # Hide cell zero values. # sub hide_zero { my $self = shift; $self->{_display_zeros} = defined $_[0] ? not $_[0] : 0; } ############################################################################### # # print_across() # # Set the order in which pages are printed. # sub print_across { my $self = shift; $self->{_page_order} = defined $_[0] ? $_[0] : 1; } ############################################################################### # # set_start_page() # # Set the start page number. # sub set_start_page { my $self = shift; return unless defined $_[0]; $self->{_page_start} = $_[0]; $self->{_custom_start} = 1; } ############################################################################### # # set_first_row_column() # # Set the topmost and leftmost visible row and column. # TODO: Document this when tested fully for interaction with panes. # sub set_first_row_column { my $self = shift; my $row = $_[0] || 0; my $col = $_[1] || 0; $row = 65535 if $row > 65535; $col = 255 if $col > 255; $self->{_first_row} = $row; $self->{_first_col} = $col; } ############################################################################### # # add_write_handler($re, $code_ref) # # Allow the user to add their own matches and handlers to the write() method. # sub add_write_handler { my $self = shift; return unless @_ == 2; return unless ref $_[1] eq 'CODE'; push @{$self->{_write_match}}, [ @_ ]; } ############################################################################### # # write($row, $col, $token, $format) # # Parse $token and call appropriate write method. $row and $column are zero # indexed. $format is optional. # # The write_url() methods have a flag to prevent recursion when writing a # string that looks like a url. # # Returns: return value of called subroutine # sub write { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } my $token = $_[2]; # Handle undefs as blanks $token = '' unless defined $token; # First try user defined matches. for my $aref (@{$self->{_write_match}}) { my $re = $aref->[0]; my $sub = $aref->[1]; if ($token =~ /$re/) { my $match = &$sub($self, @_); return $match if defined $match; } } # Match an array ref. if (ref $token eq "ARRAY") { return $self->write_row(@_); } # Match integer with leading zero(s) elsif ($self->{_leading_zeros} and $token =~ /^0\d+$/) { return $self->write_string(@_); } # Match number elsif ($token =~ /^([+-]?)(?=\d|\.\d)\d*(\.\d*)?([Ee]([+-]?\d+))?$/) { return $self->write_number(@_); } # Match http, https or ftp URL elsif ($token =~ m|^[fh]tt?ps?://| and not $self->{_writing_url}) { return $self->write_url(@_); } # Match mailto: elsif ($token =~ m/^mailto:/ and not $self->{_writing_url}) { return $self->write_url(@_); } # Match internal or external sheet link elsif ($token =~ m[^(?:in|ex)ternal:] and not $self->{_writing_url}) { return $self->write_url(@_); } # Match formula elsif ($token =~ /^=/) { return $self->write_formula(@_); } # Match blank elsif ($token eq '') { splice @_, 2, 1; # remove the empty string from the parameter list return $self->write_blank(@_); } else { return $self->write_string(@_); } } ############################################################################### # # write_row($row, $col, $array_ref, $format) # # Write a row of data starting from ($row, $col). Call write_col() if any of # the elements of the array ref are in turn array refs. This allows the writing # of 1D or 2D arrays of data in one go. # # Returns: the first encountered error value or zero for no errors # sub write_row { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } # Catch non array refs passed by user. if (ref $_[2] ne 'ARRAY') { croak "Not an array ref in call to write_row()$!"; } my $row = shift; my $col = shift; my $tokens = shift; my @options = @_; my $error = 0; my $ret; foreach my $token (@$tokens) { # Check for nested arrays if (ref $token eq "ARRAY") { $ret = $self->write_col($row, $col, $token, @options); } else { $ret = $self->write ($row, $col, $token, @options); } # Return only the first error encountered, if any. $error ||= $ret; $col++; } return $error; } ############################################################################### # # write_col($row, $col, $array_ref, $format) # # Write a column of data starting from ($row, $col). Call write_row() if any of # the elements of the array ref are in turn array refs. This allows the writing # of 1D or 2D arrays of data in one go. # # Returns: the first encountered error value or zero for no errors # sub write_col { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } # Catch non array refs passed by user. if (ref $_[2] ne 'ARRAY') { croak "Not an array ref in call to write_col()$!"; } my $row = shift; my $col = shift; my $tokens = shift; my @options = @_; my $error = 0; my $ret; foreach my $token (@$tokens) { # write() will deal with any nested arrays $ret = $self->write($row, $col, $token, @options); # Return only the first error encountered, if any. $error ||= $ret; $row++; } return $error; } ############################################################################### # # write_comment($row, $col, $comment) # # Write a comment to the specified row and column (zero indexed). # # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # sub write_comment { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } if (@_ < 3) { return -1 } # Check the number of args my $row = $_[0]; my $col = $_[1]; # Check for pairs of optional arguments, i.e. an odd number of args. croak "Uneven number of additional arguments" unless @_ % 2; # Check that row and col are valid and store max and min values return -2 if $self->_check_dimensions($row, $col); # We have to avoid duplicate comments in cells or else Excel will complain. $self->{_comments}->{$row}->{$col} = [ $self->_comment_params(@_) ]; } ############################################################################### # # _XF() # # Returns an index to the XF record in the workbook. # # Note: this is a function, not a method. # sub _XF { my $self = $_[0]; my $row = $_[1]; my $col = $_[2]; my $format = $_[3]; my $error = "Error: refer to merge_range() in the documentation. " . "Can't use previously merged format in non-merged cell"; if (ref($format)) { # Temp code to prevent merged formats in non-merged cells. croak $error if $format->{_used_merge} == 1; $format->{_used_merge} = -1; return $format->get_xf_index(); } elsif (exists $self->{_row_formats}->{$row}) { # Temp code to prevent merged formats in non-merged cells. croak $error if $self->{_row_formats}->{$row}->{_used_merge} == 1; $self->{_row_formats}->{$row}->{_used_merge} = -1; return $self->{_row_formats}->{$row}->get_xf_index(); } elsif (exists $self->{_col_formats}->{$col}) { # Temp code to prevent merged formats in non-merged cells. croak $error if $self->{_col_formats}->{$col}->{_used_merge} == 1; $self->{_col_formats}->{$col}->{_used_merge} = -1; return $self->{_col_formats}->{$col}->get_xf_index(); } else { return 0x0F; } } ############################################################################### ############################################################################### # # Internal methods # ############################################################################### # # _append(), overridden. # # Store Worksheet data in memory using the base class _append() or to a # temporary file, the default. # sub _append { my $self = shift; my $data = ''; if ($self->{_using_tmpfile}) { $data = join('', @_); # Add CONTINUE records if necessary $data = $self->_add_continue($data) if length($data) > $self->{_limit}; # Protect print() from -l on the command line. local $\ = undef; print {$self->{_filehandle}} $data; $self->{_datasize} += length($data); } else { $data = $self->SUPER::_append(@_); } return $data; } ############################################################################### # # _substitute_cellref() # # Substitute an Excel cell reference in A1 notation for zero based row and # column values in an argument list. # # Ex: ("A4", "Hello") is converted to (3, 0, "Hello"). # sub _substitute_cellref { my $self = shift; my $cell = uc(shift); # Convert a column range: 'A:A' or 'B:G'. # A range such as A:A is equivalent to A1:65536, so add rows as required if ($cell =~ /\$?([A-I]?[A-Z]):\$?([A-I]?[A-Z])/) { my ($row1, $col1) = $self->_cell_to_rowcol($1 .'1'); my ($row2, $col2) = $self->_cell_to_rowcol($2 .'65536'); return $row1, $col1, $row2, $col2, @_; } # Convert a cell range: 'A1:B7' if ($cell =~ /\$?([A-I]?[A-Z]\$?\d+):\$?([A-I]?[A-Z]\$?\d+)/) { my ($row1, $col1) = $self->_cell_to_rowcol($1); my ($row2, $col2) = $self->_cell_to_rowcol($2); return $row1, $col1, $row2, $col2, @_; } # Convert a cell reference: 'A1' or 'AD2000' if ($cell =~ /\$?([A-I]?[A-Z]\$?\d+)/) { my ($row1, $col1) = $self->_cell_to_rowcol($1); return $row1, $col1, @_; } croak("Unknown cell reference $cell"); } ############################################################################### # # _cell_to_rowcol($cell_ref) # # Convert an Excel cell reference in A1 notation to a zero based row and column # reference; converts C1 to (0, 2). # # Returns: row, column # sub _cell_to_rowcol { my $self = shift; my $cell = shift; $cell =~ /\$?([A-I]?[A-Z])\$?(\d+)/; my $col = $1; my $row = $2; # Convert base26 column string to number # All your Base are belong to us. my @chars = split //, $col; my $expn = 0; $col = 0; while (@chars) { my $char = pop(@chars); # LS char first $col += (ord($char) -ord('A') +1) * (26**$expn); $expn++; } # Convert 1-index to zero-index $row--; $col--; return $row, $col; } ############################################################################### # # _sort_pagebreaks() # # # This is an internal method that is used to filter elements of the array of # pagebreaks used in the _store_hbreak() and _store_vbreak() methods. It: # 1. Removes duplicate entries from the list. # 2. Sorts the list. # 3. Removes 0 from the list if present. # sub _sort_pagebreaks { my $self= shift; my %hash; my @array; @hash{@_} = undef; # Hash slice to remove duplicates @array = sort {$a <=> $b} keys %hash; # Numerical sort shift @array if $array[0] == 0; # Remove zero # 1000 vertical pagebreaks appears to be an internal Excel 5 limit. # It is slightly higher in Excel 97/200, approx. 1026 splice(@array, 1000) if (@array > 1000); return @array } ############################################################################### # # _encode_password($password) # # Based on the algorithm provided by Daniel Rentz of OpenOffice. # # sub _encode_password { use integer; my $self = shift; my $plaintext = $_[0]; my $password; my $count; my @chars; my $i = 0; $count = @chars = split //, $plaintext; foreach my $char (@chars) { my $low_15; my $high_15; $char = ord($char) << ++$i; $low_15 = $char & 0x7fff; $high_15 = $char & 0x7fff << 15; $high_15 = $high_15 >> 15; $char = $low_15 | $high_15; } $password = 0x0000; $password ^= $_ for @chars; $password ^= $count; $password ^= 0xCE4B; return $password; } ############################################################################### # # outline_settings($visible, $symbols_below, $symbols_right, $auto_style) # # This method sets the properties for outlining and grouping. The defaults # correspond to Excel's defaults. # sub outline_settings { my $self = shift; $self->{_outline_on} = defined $_[0] ? $_[0] : 1; $self->{_outline_below} = defined $_[1] ? $_[1] : 1; $self->{_outline_right} = defined $_[2] ? $_[2] : 1; $self->{_outline_style} = $_[3] || 0; # Ensure this is a boolean vale for Window2 $self->{_outline_on} = 1 if $self->{_outline_on}; } ############################################################################### ############################################################################### # # BIFF RECORDS # ############################################################################### # # write_number($row, $col, $num, $format) # # Write a double to the specified row and column (zero indexed). # An integer can be written as a double. Excel will display an # integer. $format is optional. # # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # sub write_number { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } if (@_ < 3) { return -1 } # Check the number of args my $record = 0x0203; # Record identifier my $length = 0x000E; # Number of bytes to follow my $row = $_[0]; # Zero indexed row my $col = $_[1]; # Zero indexed column my $num = $_[2]; my $xf = _XF($self, $row, $col, $_[3]); # The cell format # Check that row and col are valid and store max and min values return -2 if $self->_check_dimensions($row, $col); my $header = pack("vv", $record, $length); my $data = pack("vvv", $row, $col, $xf); my $xl_double = pack("d", $num); if ($self->{_byte_order}) { $xl_double = reverse $xl_double } # Store the data or write immediately depending on the compatibility mode. if ($self->{_compatibility}) { $self->{_table}->[$row]->[$col] = $header . $data . $xl_double; } else { $self->_append($header, $data, $xl_double); } return 0; } ############################################################################### # # write_string ($row, $col, $string, $format) # # Write a string to the specified row and column (zero indexed). # $format is optional. # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # -3 : long string truncated to max chars # sub write_string { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } if (@_ < 3) { return -1 } # Check the number of args my $record = 0x00FD; # Record identifier my $length = 0x000A; # Bytes to follow my $row = $_[0]; # Zero indexed row my $col = $_[1]; # Zero indexed column my $strlen = length($_[2]); my $str = $_[2]; my $xf = _XF($self, $row, $col, $_[3]); # The cell format my $encoding = 0x0; my $str_error = 0; # Handle utf8 strings in perl 5.8. if ($] >= 5.008) { require Encode; if (Encode::is_utf8($str)) { my $tmp = Encode::encode("UTF-16LE", $str); return $self->write_utf16le_string($row, $col, $tmp, $_[3]); } } # Check that row and col are valid and store max and min values return -2 if $self->_check_dimensions($row, $col); # Limit the string to the max number of chars. if ($strlen > 32767) { $str = substr($str, 0, 32767); $str_error = -3; } # Prepend the string with the type. my $str_header = pack("vC", length($str), $encoding); $str = $str_header . $str; if (not exists ${$self->{_str_table}}->{$str}) { ${$self->{_str_table}}->{$str} = ${$self->{_str_unique}}++; } ${$self->{_str_total}}++; my $header = pack("vv", $record, $length); my $data = pack("vvvV", $row, $col, $xf, ${$self->{_str_table}}->{$str}); # Store the data or write immediately depending on the compatibility mode. if ($self->{_compatibility}) { $self->{_table}->[$row]->[$col] = $header . $data; } else { $self->_append($header, $data); } return $str_error; } ############################################################################### # # write_blank($row, $col, $format) # # Write a blank cell to the specified row and column (zero indexed). # A blank cell is used to specify formatting without adding a string # or a number. # # A blank cell without a format serves no purpose. Therefore, we don't write # a BLANK record unless a format is specified. This is mainly an optimisation # for the write_row() and write_col() methods. # # Returns 0 : normal termination (including no format) # -1 : insufficient number of arguments # -2 : row or column out of range # sub write_blank { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } # Check the number of args return -1 if @_ < 2; # Don't write a blank cell unless it has a format return 0 if not defined $_[2]; my $record = 0x0201; # Record identifier my $length = 0x0006; # Number of bytes to follow my $row = $_[0]; # Zero indexed row my $col = $_[1]; # Zero indexed column my $xf = _XF($self, $row, $col, $_[2]); # The cell format # Check that row and col are valid and store max and min values return -2 if $self->_check_dimensions($row, $col); my $header = pack("vv", $record, $length); my $data = pack("vvv", $row, $col, $xf); # Store the data or write immediately depending on the compatibility mode. if ($self->{_compatibility}) { $self->{_table}->[$row]->[$col] = $header . $data; } else { $self->_append($header, $data); } return 0; } ############################################################################### # # write_formula($row, $col, $formula, $format, $value) # # Write a formula to the specified row and column (zero indexed). # The textual representation of the formula is passed to the parser in # Formula.pm which returns a packed binary string. # # $format is optional. # # $value is an optional result of the formula that can be supplied by the user. # # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # sub write_formula { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } if (@_ < 3) { return -1 } # Check the number of args return if ! defined $_[2]; my $record = 0x0006; # Record identifier my $length; # Bytes to follow my $row = $_[0]; # Zero indexed row my $col = $_[1]; # Zero indexed column my $formula = $_[2]; # The formula text string my $value = $_[4]; # The formula value. my $xf = _XF($self, $row, $col, $_[3]); # The cell format my $chn = 0x0000; # Must be zero my $is_string = 0; # Formula evaluates to str my $num; # Current value of formula my $grbit; # Option flags # Excel normally stores the last calculated value of the formula in $num. # Clearly we are not in a position to calculate this "a priori". Instead # we set $num to zero and set the option flags in $grbit to ensure # automatic calculation of the formula when the file is opened. # As a workaround for some non-Excel apps we also allow the user to # specify the result of the formula. # ($num, $grbit, $is_string) = $self->_encode_formula_result($value); # Check that row and col are valid and store max and min values return -2 if $self->_check_dimensions($row, $col); # Strip the = sign at the beginning of the formula string $formula =~ s(^=)(); my $tmp = $formula; # Parse the formula using the parser in Formula.pm my $parser = $self->{_parser}; # In order to raise formula errors from the point of view of the calling # program we use an eval block and re-raise the error from here. # eval { $formula = $parser->parse_formula($formula) }; if ($@) { $@ =~ s/\n$//; # Strip the \n used in the Formula.pm die() croak $@; # Re-raise the error } my $formlen = length($formula); # Length of the binary string $length = 0x16 + $formlen; # Length of the record data my $header = pack("vv", $record, $length); my $data = pack("vvv", $row, $col, $xf); $data .= $num; $data .= pack("vVv", $grbit, $chn, $formlen); # The STRING record if the formula evaluates to a string. my $string = ''; $string = $self->_get_formula_string($value) if $is_string; # Store the data or write immediately depending on the compatibility mode. if ($self->{_compatibility}) { $self->{_table}->[$row]->[$col] = $header . $data . $formula . $string; } else { $self->_append($header, $data, $formula, $string); } return 0; } ############################################################################### # # _encode_formula_result() # # Encode the user supplied result for a formula. # sub _encode_formula_result { my $self = shift; my $value = $_[0]; # Result to be encoded. my $is_string = 0; # Formula evaluates to str. my $num; # Current value of formula. my $grbit; # Option flags. if (not defined $value) { $grbit = 0x03; $num = pack "d", 0; } else { # The user specified the result of the formula. We turn off the recalc # flag and check the result type. $grbit = 0x00; if ($value =~ /^([+-]?)(?=\d|\.\d)\d*(\.\d*)?([Ee]([+-]?\d+))?$/) { # Value is a number. $num = pack "d", $value; } else { my %bools = ( 'TRUE' => [1, 1], 'FALSE' => [1, 0], '#NULL!' => [2, 0], '#DIV/0!' => [2, 7], '#VALUE!' => [2, 15], '#REF!' => [2, 23], '#NAME?' => [2, 29], '#NUM!' => [2, 36], '#N/A' => [2, 42], ); if (exists $bools{$value}) { # Value is a boolean. $num = pack "vvvv", $bools{$value}->[0], $bools{$value}->[1], 0, 0xFFFF; } else { # Value is a string. $num = pack "vvvv", 0, 0, 0, 0xFFFF; $is_string = 1; } } } return ($num, $grbit, $is_string); } ############################################################################### # # _get_formula_string() # # Pack the string value when a formula evaluates to a string. The value cannot # be calculated by the module and thus must be supplied by the user. # sub _get_formula_string { my $self = shift; my $record = 0x0207; # Record identifier my $length = 0x00; # Bytes to follow my $string = $_[0]; # Formula string. my $strlen = length $_[0]; # Length of the formula string (chars). my $encoding = 0; # String encoding. # Handle utf8 strings in perl 5.8. if ($] >= 5.008) { require Encode; if (Encode::is_utf8($string)) { $string = Encode::encode("UTF-16BE", $string); $encoding = 1; } } $length = 0x03 + length $string; # Length of the record data my $header = pack("vv", $record, $length); my $data = pack("vC", $strlen, $encoding); return $header . $data . $string; } ############################################################################### # # store_formula($formula) # # Pre-parse a formula. This is used in conjunction with repeat_formula() # to repetitively rewrite a formula without re-parsing it. # sub store_formula { my $self = shift; my $formula = $_[0]; # The formula text string # Strip the = sign at the beginning of the formula string $formula =~ s(^=)(); # Parse the formula using the parser in Formula.pm my $parser = $self->{_parser}; # In order to raise formula errors from the point of view of the calling # program we use an eval block and re-raise the error from here. # my @tokens; eval { @tokens = $parser->parse_formula($formula) }; if ($@) { $@ =~ s/\n$//; # Strip the \n used in the Formula.pm die() croak $@; # Re-raise the error } # Return the parsed tokens in an anonymous array return [@tokens]; } ############################################################################### # # repeat_formula($row, $col, $formula, $format, ($pattern => $replacement,...)) # # Write a formula to the specified row and column (zero indexed) by # substituting $pattern $replacement pairs in the $formula created via # store_formula(). This allows the user to repetitively rewrite a formula # without the significant overhead of parsing. # # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # sub repeat_formula { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } if (@_ < 2) { return -1 } # Check the number of args my $record = 0x0006; # Record identifier my $length; # Bytes to follow my $row = shift; # Zero indexed row my $col = shift; # Zero indexed column my $formula_ref = shift; # Array ref with formula tokens my $format = shift; # XF format my @pairs = @_; # Pattern/replacement pairs # Enforce an even number of arguments in the pattern/replacement list croak "Odd number of elements in pattern/replacement list" if @pairs %2; # Check that $formula is an array ref croak "Not a valid formula" if ref $formula_ref ne 'ARRAY'; my @tokens = @$formula_ref; # Ensure that there are tokens to substitute croak "No tokens in formula" unless @tokens; # As a temporary and undocumented measure we allow the user to specify the # result of the formula by appending a result => $value pair to the end # of the arguments. my $value = undef; if (@pairs && $pairs[-2] eq 'result') { $value = pop @pairs; pop @pairs; } while (@pairs) { my $pattern = shift @pairs; my $replace = shift @pairs; foreach my $token (@tokens) { last if $token =~ s/$pattern/$replace/; } } # Change the parameters in the formula cached by the Formula.pm object my $parser = $self->{_parser}; my $formula = $parser->parse_tokens(@tokens); croak "Unrecognised token in formula" unless defined $formula; my $xf = _XF($self, $row, $col, $format); # The cell format my $chn = 0x0000; # Must be zero my $is_string = 0; # Formula evaluates to str my $num; # Current value of formula my $grbit; # Option flags # Excel normally stores the last calculated value of the formula in $num. # Clearly we are not in a position to calculate this "a priori". Instead # we set $num to zero and set the option flags in $grbit to ensure # automatic calculation of the formula when the file is opened. # As a workaround for some non-Excel apps we also allow the user to # specify the result of the formula. # ($num, $grbit, $is_string) = $self->_encode_formula_result($value); # Check that row and col are valid and store max and min values return -2 if $self->_check_dimensions($row, $col); my $formlen = length($formula); # Length of the binary string $length = 0x16 + $formlen; # Length of the record data my $header = pack("vv", $record, $length); my $data = pack("vvv", $row, $col, $xf); $data .= $num; $data .= pack("vVv", $grbit, $chn, $formlen); # The STRING record if the formula evaluates to a string. my $string = ''; $string = $self->_get_formula_string($value) if $is_string; # Store the data or write immediately depending on the compatibility mode. if ($self->{_compatibility}) { $self->{_table}->[$row]->[$col] = $header . $data . $formula . $string; } else { $self->_append($header, $data, $formula, $string); } return 0; } ############################################################################### # # write_url($row, $col, $url, $string, $format) # # Write a hyperlink. This is comprised of two elements: the visible label and # the invisible link. The visible label is the same as the link unless an # alternative string is specified. # # The parameters $string and $format are optional and their order is # interchangeable for backward compatibility reasons. # # The hyperlink can be to a http, ftp, mail, internal sheet, or external # directory url. # # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # -3 : long string truncated to 255 chars # sub write_url { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } # Check the number of args return -1 if @_ < 3; # Add start row and col to arg list return $self->write_url_range($_[0], $_[1], @_); } ############################################################################### # # write_url_range($row1, $col1, $row2, $col2, $url, $string, $format) # # This is the more general form of write_url(). It allows a hyperlink to be # written to a range of cells. This function also decides the type of hyperlink # to be written. These are either, Web (http, ftp, mailto), Internal # (Sheet1!A1) or external ('c:\temp\foo.xls#Sheet1!A1'). # # See also write_url() above for a general description and return values. # sub write_url_range { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } # Check the number of args return -1 if @_ < 5; # Reverse the order of $string and $format if necessary. We work on a copy # in order to protect the callers args. We don't use "local @_" in case of # perl50005 threads. # my @args = @_; ($args[5], $args[6]) = ($args[6], $args[5]) if ref $args[5]; my $url = $args[4]; # Check for internal/external sheet links or default to web link return $self->_write_url_internal(@args) if $url =~ m[^internal:]; return $self->_write_url_external(@args) if $url =~ m[^external:]; return $self->_write_url_web(@args); } ############################################################################### # # _write_url_web($row1, $col1, $row2, $col2, $url, $string, $format) # # Used to write http, ftp and mailto hyperlinks. # The link type ($options) is 0x03 is the same as absolute dir ref without # sheet. However it is differentiated by the $unknown2 data stream. # # See also write_url() above for a general description and return values. # sub _write_url_web { my $self = shift; my $record = 0x01B8; # Record identifier my $length = 0x00000; # Bytes to follow my $row1 = $_[0]; # Start row my $col1 = $_[1]; # Start column my $row2 = $_[2]; # End row my $col2 = $_[3]; # End column my $url = $_[4]; # URL string my $str = $_[5]; # Alternative label my $xf = $_[6] || $self->{_url_format};# The cell format # Write the visible label but protect against url recursion in write(). $str = $url unless defined $str; $self->{_writing_url} = 1; my $error = $self->write($row1, $col1, $str, $xf); $self->{_writing_url} = 0; return $error if $error == -2; # Pack the undocumented parts of the hyperlink stream my $unknown1 = pack("H*", "D0C9EA79F9BACE118C8200AA004BA90B02000000"); my $unknown2 = pack("H*", "E0C9EA79F9BACE118C8200AA004BA90B"); # Pack the option flags my $options = pack("V", 0x03); # URL encoding. my $encoding = 0; # Convert an Utf8 URL type and to a null terminated wchar string. if ($] >= 5.008) { require Encode; if (Encode::is_utf8($url)) { $url = Encode::encode("UTF-16LE", $url); $url .= "\0\0"; # URL is null terminated. $encoding = 1; } } # Convert an Ascii URL type and to a null terminated wchar string. if ($encoding == 0) { $url .= "\0"; $url = pack 'v*', unpack 'c*', $url; } # Pack the length of the URL my $url_len = pack("V", length($url)); # Calculate the data length $length = 0x34 + length($url); # Pack the header data my $header = pack("vv", $record, $length); my $data = pack("vvvv", $row1, $row2, $col1, $col2); # Write the packed data $self->_append( $header, $data, $unknown1, $options, $unknown2, $url_len, $url); return $error; } ############################################################################### # # _write_url_internal($row1, $col1, $row2, $col2, $url, $string, $format) # # Used to write internal reference hyperlinks such as "Sheet1!A1". # # See also write_url() above for a general description and return values. # sub _write_url_internal { my $self = shift; my $record = 0x01B8; # Record identifier my $length = 0x00000; # Bytes to follow my $row1 = $_[0]; # Start row my $col1 = $_[1]; # Start column my $row2 = $_[2]; # End row my $col2 = $_[3]; # End column my $url = $_[4]; # URL string my $str = $_[5]; # Alternative label my $xf = $_[6] || $self->{_url_format};# The cell format # Strip URL type $url =~ s[^internal:][]; # Write the visible label but protect against url recursion in write(). $str = $url unless defined $str; $self->{_writing_url} = 1; my $error = $self->write($row1, $col1, $str, $xf); $self->{_writing_url} = 0; return $error if $error == -2; # Pack the undocumented parts of the hyperlink stream my $unknown1 = pack("H*", "D0C9EA79F9BACE118C8200AA004BA90B02000000"); # Pack the option flags my $options = pack("V", 0x08); # URL encoding. my $encoding = 0; # Convert an Utf8 URL type and to a null terminated wchar string. if ($] >= 5.008) { require Encode; if (Encode::is_utf8($url)) { # Quote sheet name if not already, i.e., Sheet!A1 to 'Sheet!A1'. $url =~ s/^(.+)!/'$1'!/ if not $url =~ /^'/; $url = Encode::encode("UTF-16LE", $url); $url .= "\0\0"; # URL is null terminated. $encoding = 1; } } # Convert an Ascii URL type and to a null terminated wchar string. if ($encoding == 0) { $url .= "\0"; $url = pack 'v*', unpack 'c*', $url; } # Pack the length of the URL as chars (not wchars) my $url_len = pack("V", int(length($url)/2)); # Calculate the data length $length = 0x24 + length($url); # Pack the header data my $header = pack("vv", $record, $length); my $data = pack("vvvv", $row1, $row2, $col1, $col2); # Write the packed data $self->_append( $header, $data, $unknown1, $options, $url_len, $url); return $error; } ############################################################################### # # _write_url_external($row1, $col1, $row2, $col2, $url, $string, $format) # # Write links to external directory names such as 'c:\foo.xls', # c:\foo.xls#Sheet1!A1', '../../foo.xls'. and '../../foo.xls#Sheet1!A1'. # # Note: Excel writes some relative links with the $dir_long string. We ignore # these cases for the sake of simpler code. # # See also write_url() above for a general description and return values. # sub _write_url_external { my $self = shift; # Network drives are different. We will handle them separately # MS/Novell network drives and shares start with \\ return $self->_write_url_external_net(@_) if $_[4] =~ m[^external:\\\\]; my $record = 0x01B8; # Record identifier my $length = 0x00000; # Bytes to follow my $row1 = $_[0]; # Start row my $col1 = $_[1]; # Start column my $row2 = $_[2]; # End row my $col2 = $_[3]; # End column my $url = $_[4]; # URL string my $str = $_[5]; # Alternative label my $xf = $_[6] || $self->{_url_format};# The cell format # Strip URL type and change Unix dir separator to Dos style (if needed) # $url =~ s[^external:][]; $url =~ s[/][\\]g; # Write the visible label but protect against url recursion in write(). ($str = $url) =~ s[\#][ - ] unless defined $str; $self->{_writing_url} = 1; my $error = $self->write($row1, $col1, $str, $xf); $self->{_writing_url} = 0; return $error if $error == -2; # Determine if the link is relative or absolute: # Absolute if link starts with DOS drive specifier like C: # Otherwise default to 0x00 for relative link. # my $absolute = 0x00; $absolute = 0x02 if $url =~ m/^[A-Za-z]:/; # Determine if the link contains a sheet reference and change some of the # parameters accordingly. # Split the dir name and sheet name (if it exists) # my ($dir_long , $sheet) = split /\#/, $url; my $link_type = 0x01 | $absolute; my $sheet_len; if (defined $sheet) { $link_type |= 0x08; $sheet_len = pack("V", length($sheet) + 0x01); $sheet = join("\0", split('', $sheet)); $sheet .= "\0\0\0"; } else { $sheet_len = ''; $sheet = ''; } # Pack the link type $link_type = pack("V", $link_type); # Calculate the up-level dir count e.g. (..\..\..\ == 3) my $up_count = 0; $up_count++ while $dir_long =~ s[^\.\.\\][]; $up_count = pack("v", $up_count); # Store the short dos dir name (null terminated) my $dir_short = $dir_long . "\0"; # Store the long dir name as a wchar string (non-null terminated) $dir_long = join("\0", split('', $dir_long)); $dir_long = $dir_long . "\0"; # Pack the lengths of the dir strings my $dir_short_len = pack("V", length $dir_short ); my $dir_long_len = pack("V", length $dir_long ); my $stream_len = pack("V", length($dir_long) + 0x06); # Pack the undocumented parts of the hyperlink stream my $unknown1 =pack("H*",'D0C9EA79F9BACE118C8200AA004BA90B02000000' ); my $unknown2 =pack("H*",'0303000000000000C000000000000046' ); my $unknown3 =pack("H*",'FFFFADDE000000000000000000000000000000000000000'); my $unknown4 =pack("v", 0x03 ); # Pack the main data stream my $data = pack("vvvv", $row1, $row2, $col1, $col2) . $unknown1 . $link_type . $unknown2 . $up_count . $dir_short_len. $dir_short . $unknown3 . $stream_len . $dir_long_len . $unknown4 . $dir_long . $sheet_len . $sheet ; # Pack the header data $length = length $data; my $header = pack("vv", $record, $length); # Write the packed data $self->_append($header, $data); return $error; } ############################################################################### # # _write_url_external_net($row1, $col1, $row2, $col2, $url, $string, $format) # # Write links to external MS/Novell network drives and shares such as # '//NETWORK/share/foo.xls' and '//NETWORK/share/foo.xls#Sheet1!A1'. # # See also write_url() above for a general description and return values. # sub _write_url_external_net { my $self = shift; my $record = 0x01B8; # Record identifier my $length = 0x00000; # Bytes to follow my $row1 = $_[0]; # Start row my $col1 = $_[1]; # Start column my $row2 = $_[2]; # End row my $col2 = $_[3]; # End column my $url = $_[4]; # URL string my $str = $_[5]; # Alternative label my $xf = $_[6] || $self->{_url_format};# The cell format # Strip URL type and change Unix dir separator to Dos style (if needed) # $url =~ s[^external:][]; $url =~ s[/][\\]g; # Write the visible label but protect against url recursion in write(). ($str = $url) =~ s[\#][ - ] unless defined $str; $self->{_writing_url} = 1; my $error = $self->write($row1, $col1, $str, $xf); $self->{_writing_url} = 0; return $error if $error == -2; # Determine if the link contains a sheet reference and change some of the # parameters accordingly. # Split the dir name and sheet name (if it exists) # my ($dir_long , $sheet) = split /\#/, $url; my $link_type = 0x0103; # Always absolute my $sheet_len; if (defined $sheet) { $link_type |= 0x08; $sheet_len = pack("V", length($sheet) + 0x01); $sheet = join("\0", split('', $sheet)); $sheet .= "\0\0\0"; } else { $sheet_len = ''; $sheet = ''; } # Pack the link type $link_type = pack("V", $link_type); # Make the string null terminated $dir_long = $dir_long . "\0"; # Pack the lengths of the dir string my $dir_long_len = pack("V", length $dir_long); # Store the long dir name as a wchar string (non-null terminated) $dir_long = join("\0", split('', $dir_long)); $dir_long = $dir_long . "\0"; # Pack the undocumented part of the hyperlink stream my $unknown1 = pack("H*",'D0C9EA79F9BACE118C8200AA004BA90B02000000'); # Pack the main data stream my $data = pack("vvvv", $row1, $row2, $col1, $col2) . $unknown1 . $link_type . $dir_long_len . $dir_long . $sheet_len . $sheet ; # Pack the header data $length = length $data; my $header = pack("vv", $record, $length); # Write the packed data $self->_append($header, $data); return $error; } ############################################################################### # # write_date_time ($row, $col, $string, $format) # # Write a datetime string in ISO8601 "yyyy-mm-ddThh:mm:ss.ss" format as a # number representing an Excel date. $format is optional. # # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # -3 : Invalid date_time, written as string # sub write_date_time { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } if (@_ < 3) { return -1 } # Check the number of args my $row = $_[0]; # Zero indexed row my $col = $_[1]; # Zero indexed column my $str = $_[2]; # Check that row and col are valid and store max and min values return -2 if $self->_check_dimensions($row, $col); my $error = 0; my $date_time = $self->convert_date_time($str); if (defined $date_time) { $error = $self->write_number($row, $col, $date_time, $_[3]); } else { # The date isn't valid so write it as a string. $self->write_string($row, $col, $str, $_[3]); $error = -3; } return $error; } ############################################################################### # # convert_date_time($date_time_string) # # The function takes a date and time in ISO8601 "yyyy-mm-ddThh:mm:ss.ss" format # and converts it to a decimal number representing a valid Excel date. # # Dates and times in Excel are represented by real numbers. The integer part of # the number stores the number of days since the epoch and the fractional part # stores the percentage of the day in seconds. The epoch can be either 1900 or # 1904. # # Parameter: Date and time string in one of the following formats: # yyyy-mm-ddThh:mm:ss.ss # Standard # yyyy-mm-ddT # Date only # Thh:mm:ss.ss # Time only # # Returns: # A decimal number representing a valid Excel date, or # undef if the date is invalid. # sub convert_date_time { my $self = shift; my $date_time = $_[0]; my $days = 0; # Number of days since epoch my $seconds = 0; # Time expressed as fraction of 24h hours in seconds my ($year, $month, $day); my ($hour, $min, $sec); # Strip leading and trailing whitespace. $date_time =~ s/^\s+//; $date_time =~ s/\s+$//; # Check for invalid date char. return if $date_time =~ /[^0-9T:\-\.Z]/; # Check for "T" after date or before time. return unless $date_time =~ /\dT|T\d/; # Strip trailing Z in ISO8601 date. $date_time =~ s/Z$//; # Split into date and time. my ($date, $time) = split /T/, $date_time; # We allow the time portion of the input DateTime to be optional. if ($time ne '') { # Match hh:mm:ss.sss+ where the seconds are optional if ($time =~ /^(\d\d):(\d\d)(:(\d\d(\.\d+)?))?/) { $hour = $1; $min = $2; $sec = $4 || 0; } else { return undef; # Not a valid time format. } # Some boundary checks return if $hour >= 24; return if $min >= 60; return if $sec >= 60; # Excel expresses seconds as a fraction of the number in 24 hours. $seconds = ($hour *60*60 + $min *60 + $sec) / (24 *60 *60); } # We allow the date portion of the input DateTime to be optional. return $seconds if $date eq ''; # Match date as yyyy-mm-dd. if ($date =~ /^(\d\d\d\d)-(\d\d)-(\d\d)$/) { $year = $1; $month = $2; $day = $3; } else { return undef; # Not a valid date format. } # Set the epoch as 1900 or 1904. Defaults to 1900. my $date_1904 = $self->{_1904}; # Special cases for Excel. if (not $date_1904) { return $seconds if $date eq '1899-12-31'; # Excel 1900 epoch return $seconds if $date eq '1900-01-00'; # Excel 1900 epoch return 60 + $seconds if $date eq '1900-02-29'; # Excel false leapday } # We calculate the date by calculating the number of days since the epoch # and adjust for the number of leap days. We calculate the number of leap # days by normalising the year in relation to the epoch. Thus the year 2000 # becomes 100 for 4 and 100 year leapdays and 400 for 400 year leapdays. # my $epoch = $date_1904 ? 1904 : 1900; my $offset = $date_1904 ? 4 : 0; my $norm = 300; my $range = $year -$epoch; # Set month days and check for leap year. my @mdays = (31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31); my $leap = 0; $leap = 1 if $year % 4 == 0 and $year % 100 or $year % 400 == 0; $mdays[1] = 29 if $leap; # Some boundary checks return if $year < $epoch or $year > 9999; return if $month < 1 or $month > 12; return if $day < 1 or $day > $mdays[$month -1]; # Accumulate the number of days since the epoch. $days = $day; # Add days for current month $days += $mdays[$_] for 0 .. $month -2; # Add days for past months $days += $range *365; # Add days for past years $days += int(($range) / 4); # Add leapdays $days -= int(($range +$offset) /100); # Subtract 100 year leapdays $days += int(($range +$offset +$norm)/400); # Add 400 year leapdays $days -= $leap; # Already counted above # Adjust for Excel erroneously treating 1900 as a leap year. $days++ if $date_1904 == 0 and $days > 59; return $days + $seconds; } ############################################################################### # # set_row($row, $height, $XF, $hidden, $level) # # This method is used to set the height and XF format for a row. # Writes the BIFF record ROW. # sub set_row { my $self = shift; my $record = 0x0208; # Record identifier my $length = 0x0010; # Number of bytes to follow my $row = $_[0]; # Row Number my $colMic = 0x0000; # First defined column my $colMac = 0x0000; # Last defined column my $miyRw; # Row height my $irwMac = 0x0000; # Used by Excel to optimise loading my $reserved = 0x0000; # Reserved my $grbit = 0x0000; # Option flags my $ixfe; # XF index my $height = $_[1]; # Row height my $format = $_[2]; # Format object my $hidden = $_[3] || 0; # Hidden flag my $level = $_[4] || 0; # Outline level my $collapsed = $_[5] || 0; # Collapsed row return unless defined $row; # Ensure at least $row is specified. # Check that row and col are valid and store max and min values return -2 if $self->_check_dimensions($row, 0, 0, 1); # Check for a format object if (ref $format) { $ixfe = $format->get_xf_index(); } else { $ixfe = 0x0F; } # Set the row height in units of 1/20 of a point. Note, some heights may # not be obtained exactly due to rounding in Excel. # if (defined $height) { $miyRw = $height *20; } else { $miyRw = 0xff; # The default row height $height = 0; } # Set the limits for the outline levels (0 <= x <= 7). $level = 0 if $level < 0; $level = 7 if $level > 7; $self->{_outline_row_level} = $level if $level >$self->{_outline_row_level}; # Set the options flags. # 0x10: The fCollapsed flag indicates that the row contains the "+" # when an outline group is collapsed. # 0x20: The fDyZero height flag indicates a collapsed or hidden row. # 0x40: The fUnsynced flag is used to show that the font and row heights # are not compatible. This is usually the case for WriteExcel. # 0x80: The fGhostDirty flag indicates that the row has been formatted. # $grbit |= $level; $grbit |= 0x0010 if $collapsed; $grbit |= 0x0020 if $hidden; $grbit |= 0x0040; $grbit |= 0x0080 if $format; $grbit |= 0x0100; my $header = pack("vv", $record, $length); my $data = pack("vvvvvvvv", $row, $colMic, $colMac, $miyRw, $irwMac,$reserved, $grbit, $ixfe); # Store the data or write immediately depending on the compatibility mode. if ($self->{_compatibility}) { $self->{_row_data}->{$_[0]} = $header . $data; } else { $self->_append($header, $data); } # Store the row sizes for use when calculating image vertices. # Also store the row formats. $self->{_row_sizes}->{$_[0]} = $height; $self->{_row_formats}->{$_[0]} = $format if defined $format; } ############################################################################### # # _write_row_default() # # Write a default row record, in compatibility mode, for rows that don't have # user specified values.. # sub _write_row_default { my $self = shift; my $record = 0x0208; # Record identifier my $length = 0x0010; # Number of bytes to follow my $row = $_[0]; # Row Number my $colMic = $_[1]; # First defined column my $colMac = $_[2]; # Last defined column my $miyRw = 0xFF; # Row height my $irwMac = 0x0000; # Used by Excel to optimise loading my $reserved = 0x0000; # Reserved my $grbit = 0x0100; # Option flags my $ixfe = 0x0F; # XF index my $header = pack("vv", $record, $length); my $data = pack("vvvvvvvv", $row, $colMic, $colMac, $miyRw, $irwMac,$reserved, $grbit, $ixfe); $self->_append($header, $data); } ############################################################################### # # _check_dimensions($row, $col, $ignore_row, $ignore_col) # # Check that $row and $col are valid and store max and min values for use in # DIMENSIONS record. See, _store_dimensions(). # # The $ignore_row/$ignore_col flags is used to indicate that we wish to # perform the dimension check without storing the value. # # The ignore flags are use by set_row() and data_validate. # sub _check_dimensions { my $self = shift; my $row = $_[0]; my $col = $_[1]; my $ignore_row = $_[2]; my $ignore_col = $_[3]; return -2 if not defined $row; return -2 if $row >= $self->{_xls_rowmax}; return -2 if not defined $col; return -2 if $col >= $self->{_xls_colmax}; if (not $ignore_row) { if (not defined $self->{_dim_rowmin} or $row < $self->{_dim_rowmin}) { $self->{_dim_rowmin} = $row; } if (not defined $self->{_dim_rowmax} or $row > $self->{_dim_rowmax}) { $self->{_dim_rowmax} = $row; } } if (not $ignore_col) { if (not defined $self->{_dim_colmin} or $col < $self->{_dim_colmin}) { $self->{_dim_colmin} = $col; } if (not defined $self->{_dim_colmax} or $col > $self->{_dim_colmax}) { $self->{_dim_colmax} = $col; } } return 0; } ############################################################################### # # _store_dimensions() # # Writes Excel DIMENSIONS to define the area in which there is cell data. # # Notes: # Excel stores the max row/col as row/col +1. # Max and min values of 0 are used to indicate that no cell data. # We set the undef member data to 0 since it is used by _store_table(). # Inserting images or charts doesn't change the DIMENSION data. # sub _store_dimensions { my $self = shift; my $record = 0x0200; # Record identifier my $length = 0x000E; # Number of bytes to follow my $row_min; # First row my $row_max; # Last row plus 1 my $col_min; # First column my $col_max; # Last column plus 1 my $reserved = 0x0000; # Reserved by Excel if (defined $self->{_dim_rowmin}) {$row_min = $self->{_dim_rowmin} } else {$row_min = 0 } if (defined $self->{_dim_rowmax}) {$row_max = $self->{_dim_rowmax} + 1} else {$row_max = 0 } if (defined $self->{_dim_colmin}) {$col_min = $self->{_dim_colmin} } else {$col_min = 0 } if (defined $self->{_dim_colmax}) {$col_max = $self->{_dim_colmax} + 1} else {$col_max = 0 } # Set member data to the new max/min value for use by _store_table(). $self->{_dim_rowmin} = $row_min; $self->{_dim_rowmax} = $row_max; $self->{_dim_colmin} = $col_min; $self->{_dim_colmax} = $col_max; my $header = pack("vv", $record, $length); my $data = pack("VVvvv", $row_min, $row_max, $col_min, $col_max, $reserved); $self->_prepend($header, $data); } ############################################################################### # # _store_window2() # # Write BIFF record Window2. # sub _store_window2 { use integer; # Avoid << shift bug in Perl 5.6.0 on HP-UX my $self = shift; my $record = 0x023E; # Record identifier my $length = 0x0012; # Number of bytes to follow my $grbit = 0x00B6; # Option flags my $rwTop = $self->{_first_row}; # Top visible row my $colLeft = $self->{_first_col}; # Leftmost visible column my $rgbHdr = 0x00000040; # Row/col heading, grid color my $wScaleSLV = 0x0000; # Zoom in page break preview my $wScaleNormal = 0x0000; # Zoom in normal view my $reserved = 0x00000000; # The options flags that comprise $grbit my $fDspFmla = $self->{_display_formulas}; # 0 - bit my $fDspGrid = $self->{_screen_gridlines}; # 1 my $fDspRwCol = $self->{_display_headers}; # 2 my $fFrozen = $self->{_frozen}; # 3 my $fDspZeros = $self->{_display_zeros}; # 4 my $fDefaultHdr = 1; # 5 my $fArabic = $self->{_display_arabic}; # 6 my $fDspGuts = $self->{_outline_on}; # 7 my $fFrozenNoSplit = $self->{_frozen_no_split}; # 0 - bit my $fSelected = $self->{_selected}; # 1 my $fPaged = $self->{_active}; # 2 my $fBreakPreview = 0; # 3 $grbit = $fDspFmla; $grbit |= $fDspGrid << 1; $grbit |= $fDspRwCol << 2; $grbit |= $fFrozen << 3; $grbit |= $fDspZeros << 4; $grbit |= $fDefaultHdr << 5; $grbit |= $fArabic << 6; $grbit |= $fDspGuts << 7; $grbit |= $fFrozenNoSplit << 8; $grbit |= $fSelected << 9; $grbit |= $fPaged << 10; $grbit |= $fBreakPreview << 11; my $header = pack("vv", $record, $length); my $data = pack("vvvVvvV", $grbit, $rwTop, $colLeft, $rgbHdr, $wScaleSLV, $wScaleNormal, $reserved ); $self->_append($header, $data); } ############################################################################### # # _store_page_view() # # Set page view mode. Only applicable to Mac Excel. # sub _store_page_view { my $self = shift; return unless $self->{_page_view}; my $data = pack "H*", 'C8081100C808000000000040000000000900000000'; $self->_append($data); } ############################################################################### # # _store_tab_color() # # Write the Tab Color BIFF record. # sub _store_tab_color { my $self = shift; my $color = $self->{_tab_color}; return unless $color; my $record = 0x0862; # Record identifier my $length = 0x0014; # Number of bytes to follow my $zero = 0x0000; my $unknown = 0x0014; my $header = pack("vv", $record, $length); my $data = pack("vvvvvvvvvv", $record, $zero, $zero, $zero, $zero, $zero, $unknown, $zero, $color, $zero); $self->_append($header, $data); } ############################################################################### # # _store_defrow() # # Write BIFF record DEFROWHEIGHT. # sub _store_defrow { my $self = shift; my $record = 0x0225; # Record identifier my $length = 0x0004; # Number of bytes to follow my $grbit = 0x0000; # Options. my $height = 0x00FF; # Default row height my $header = pack("vv", $record, $length); my $data = pack("vv", $grbit, $height); $self->_prepend($header, $data); } ############################################################################### # # _store_defcol() # # Write BIFF record DEFCOLWIDTH. # sub _store_defcol { my $self = shift; my $record = 0x0055; # Record identifier my $length = 0x0002; # Number of bytes to follow my $colwidth = 0x0008; # Default column width my $header = pack("vv", $record, $length); my $data = pack("v", $colwidth); $self->_prepend($header, $data); } ############################################################################### # # _store_colinfo($firstcol, $lastcol, $width, $format, $hidden) # # Write BIFF record COLINFO to define column widths # # Note: The SDK says the record length is 0x0B but Excel writes a 0x0C # length record. # sub _store_colinfo { my $self = shift; my $record = 0x007D; # Record identifier my $length = 0x000B; # Number of bytes to follow my $colFirst = $_[0] || 0; # First formatted column my $colLast = $_[1] || 0; # Last formatted column my $width = $_[2] || 8.43; # Col width in user units, 8.43 is default my $coldx; # Col width in internal units my $pixels; # Col width in pixels # Excel rounds the column width to the nearest pixel. Therefore we first # convert to pixels and then to the internal units. The pixel to users-units # relationship is different for values less than 1. # if ($width < 1) { $pixels = int($width *12); } else { $pixels = int($width *7 ) +5; } $coldx = int($pixels *256/7); my $ixfe; # XF index my $grbit = 0x0000; # Option flags my $reserved = 0x00; # Reserved my $format = $_[3]; # Format object my $hidden = $_[4] || 0; # Hidden flag my $level = $_[5] || 0; # Outline level my $collapsed = $_[6] || 0; # Outline level # Check for a format object if (ref $format) { $ixfe = $format->get_xf_index(); } else { $ixfe = 0x0F; } # Set the limits for the outline levels (0 <= x <= 7). $level = 0 if $level < 0; $level = 7 if $level > 7; # Set the options flags. (See set_row() for more details). $grbit |= 0x0001 if $hidden; $grbit |= $level << 8; $grbit |= 0x1000 if $collapsed; my $header = pack("vv", $record, $length); my $data = pack("vvvvvC", $colFirst, $colLast, $coldx, $ixfe, $grbit, $reserved); $self->_prepend($header, $data); } ############################################################################### # # _store_filtermode() # # Write BIFF record FILTERMODE to indicate that the worksheet contains # AUTOFILTER record, ie. autofilters with a filter set. # sub _store_filtermode { my $self = shift; my $record = 0x009B; # Record identifier my $length = 0x0000; # Number of bytes to follow # Only write the record if the worksheet contains a filtered autofilter. return unless $self->{_filter_on}; my $header = pack("vv", $record, $length); $self->_prepend($header); } ############################################################################### # # _store_autofilterinfo() # # Write BIFF record AUTOFILTERINFO. # sub _store_autofilterinfo { my $self = shift; my $record = 0x009D; # Record identifier my $length = 0x0002; # Number of bytes to follow my $num_filters = $self->{_filter_count}; # Only write the record if the worksheet contains an autofilter. return unless $self->{_filter_count}; my $header = pack("vv", $record, $length); my $data = pack("v", $num_filters); $self->_prepend($header, $data); } ############################################################################### # # _store_selection($first_row, $first_col, $last_row, $last_col) # # Write BIFF record SELECTION. # sub _store_selection { my $self = shift; my $record = 0x001D; # Record identifier my $length = 0x000F; # Number of bytes to follow my $pnn = $self->{_active_pane}; # Pane position my $rwAct = $_[0]; # Active row my $colAct = $_[1]; # Active column my $irefAct = 0; # Active cell ref my $cref = 1; # Number of refs my $rwFirst = $_[0]; # First row in reference my $colFirst = $_[1]; # First col in reference my $rwLast = $_[2] || $rwFirst; # Last row in reference my $colLast = $_[3] || $colFirst; # Last col in reference # Swap last row/col for first row/col as necessary if ($rwFirst > $rwLast) { ($rwFirst, $rwLast) = ($rwLast, $rwFirst); } if ($colFirst > $colLast) { ($colFirst, $colLast) = ($colLast, $colFirst); } my $header = pack("vv", $record, $length); my $data = pack("CvvvvvvCC", $pnn, $rwAct, $colAct, $irefAct, $cref, $rwFirst, $rwLast, $colFirst, $colLast); $self->_append($header, $data); } ############################################################################### # # _store_externcount($count) # # Write BIFF record EXTERNCOUNT to indicate the number of external sheet # references in a worksheet. # # Excel only stores references to external sheets that are used in formulas. # For simplicity we store references to all the sheets in the workbook # regardless of whether they are used or not. This reduces the overall # complexity and eliminates the need for a two way dialogue between the formula # parser the worksheet objects. # sub _store_externcount { my $self = shift; my $record = 0x0016; # Record identifier my $length = 0x0002; # Number of bytes to follow my $cxals = $_[0]; # Number of external references my $header = pack("vv", $record, $length); my $data = pack("v", $cxals); $self->_prepend($header, $data); } ############################################################################### # # _store_externsheet($sheetname) # # # Writes the Excel BIFF EXTERNSHEET record. These references are used by # formulas. A formula references a sheet name via an index. Since we store a # reference to all of the external worksheets the EXTERNSHEET index is the same # as the worksheet index. # sub _store_externsheet { my $self = shift; my $record = 0x0017; # Record identifier my $length; # Number of bytes to follow my $sheetname = $_[0]; # Worksheet name my $cch; # Length of sheet name my $rgch; # Filename encoding # References to the current sheet are encoded differently to references to # external sheets. # if ($self->{_name} eq $sheetname) { $sheetname = ''; $length = 0x02; # The following 2 bytes $cch = 1; # The following byte $rgch = 0x02; # Self reference } else { $length = 0x02 + length($_[0]); $cch = length($sheetname); $rgch = 0x03; # Reference to a sheet in the current workbook } my $header = pack("vv", $record, $length); my $data = pack("CC", $cch, $rgch); $self->_prepend($header, $data, $sheetname); } ############################################################################### # # _store_panes() # # # Writes the Excel BIFF PANE record. # The panes can either be frozen or thawed (unfrozen). # Frozen panes are specified in terms of a integer number of rows and columns. # Thawed panes are specified in terms of Excel's units for rows and columns. # sub _store_panes { my $self = shift; my $record = 0x0041; # Record identifier my $length = 0x000A; # Number of bytes to follow my $y = $_[0] || 0; # Vertical split position my $x = $_[1] || 0; # Horizontal split position my $rwTop = $_[2]; # Top row visible my $colLeft = $_[3]; # Leftmost column visible my $no_split = $_[4]; # No used here. my $pnnAct = $_[5]; # Active pane # Code specific to frozen or thawed panes. if ($self->{_frozen}) { # Set default values for $rwTop and $colLeft $rwTop = $y unless defined $rwTop; $colLeft = $x unless defined $colLeft; } else { # Set default values for $rwTop and $colLeft $rwTop = 0 unless defined $rwTop; $colLeft = 0 unless defined $colLeft; # Convert Excel's row and column units to the internal units. # The default row height is 12.75 # The default column width is 8.43 # The following slope and intersection values were interpolated. # $y = 20*$y + 255; $x = 113.879*$x + 390; } # Determine which pane should be active. There is also the undocumented # option to override this should it be necessary: may be removed later. # if (not defined $pnnAct) { $pnnAct = 0 if ($x != 0 && $y != 0); # Bottom right $pnnAct = 1 if ($x != 0 && $y == 0); # Top right $pnnAct = 2 if ($x == 0 && $y != 0); # Bottom left $pnnAct = 3 if ($x == 0 && $y == 0); # Top left } $self->{_active_pane} = $pnnAct; # Used in _store_selection my $header = pack("vv", $record, $length); my $data = pack("vvvvv", $x, $y, $rwTop, $colLeft, $pnnAct); $self->_append($header, $data); } ############################################################################### # # _store_setup() # # Store the page setup SETUP BIFF record. # sub _store_setup { use integer; # Avoid << shift bug in Perl 5.6.0 on HP-UX my $self = shift; my $record = 0x00A1; # Record identifier my $length = 0x0022; # Number of bytes to follow my $iPaperSize = $self->{_paper_size}; # Paper size my $iScale = $self->{_print_scale}; # Print scaling factor my $iPageStart = $self->{_page_start}; # Starting page number my $iFitWidth = $self->{_fit_width}; # Fit to number of pages wide my $iFitHeight = $self->{_fit_height}; # Fit to number of pages high my $grbit = 0x00; # Option flags my $iRes = 0x0258; # Print resolution my $iVRes = 0x0258; # Vertical print resolution my $numHdr = $self->{_margin_header}; # Header Margin my $numFtr = $self->{_margin_footer}; # Footer Margin my $iCopies = 0x01; # Number of copies my $fLeftToRight = $self->{_page_order}; # Print over then down my $fLandscape = $self->{_orientation}; # Page orientation my $fNoPls = 0x0; # Setup not read from printer my $fNoColor = $self->{_black_white}; # Print black and white my $fDraft = $self->{_draft_quality}; # Print draft quality my $fNotes = $self->{_print_comments};# Print notes my $fNoOrient = 0x0; # Orientation not set my $fUsePage = $self->{_custom_start}; # Use custom starting page $grbit = $fLeftToRight; $grbit |= $fLandscape << 1; $grbit |= $fNoPls << 2; $grbit |= $fNoColor << 3; $grbit |= $fDraft << 4; $grbit |= $fNotes << 5; $grbit |= $fNoOrient << 6; $grbit |= $fUsePage << 7; $numHdr = pack("d", $numHdr); $numFtr = pack("d", $numFtr); if ($self->{_byte_order}) { $numHdr = reverse $numHdr; $numFtr = reverse $numFtr; } my $header = pack("vv", $record, $length); my $data1 = pack("vvvvvvvv", $iPaperSize, $iScale, $iPageStart, $iFitWidth, $iFitHeight, $grbit, $iRes, $iVRes); my $data2 = $numHdr .$numFtr; my $data3 = pack("v", $iCopies); $self->_prepend($header, $data1, $data2, $data3); } ############################################################################### # # _store_header() # # Store the header caption BIFF record. # sub _store_header { my $self = shift; my $record = 0x0014; # Record identifier my $length; # Bytes to follow my $str = $self->{_header}; # header string my $cch = length($str); # Length of header string my $encoding = $self->{_header_encoding}; # Character encoding # Character length is num of chars not num of bytes $cch /= 2 if $encoding; # Change the UTF-16 name from BE to LE $str = pack 'n*', unpack 'v*', $str if $encoding; $length = 3 + length($str); my $header = pack("vv", $record, $length); my $data = pack("vC", $cch, $encoding); $self->_prepend($header, $data, $str); } ############################################################################### # # _store_footer() # # Store the footer caption BIFF record. # sub _store_footer { my $self = shift; my $record = 0x0015; # Record identifier my $length; # Bytes to follow my $str = $self->{_footer}; # footer string my $cch = length($str); # Length of footer string my $encoding = $self->{_footer_encoding}; # Character encoding # Character length is num of chars not num of bytes $cch /= 2 if $encoding; # Change the UTF-16 name from BE to LE $str = pack 'n*', unpack 'v*', $str if $encoding; $length = 3 + length($str); my $header = pack("vv", $record, $length); my $data = pack("vC", $cch, $encoding); $self->_prepend($header, $data, $str); } ############################################################################### # # _store_hcenter() # # Store the horizontal centering HCENTER BIFF record. # sub _store_hcenter { my $self = shift; my $record = 0x0083; # Record identifier my $length = 0x0002; # Bytes to follow my $fHCenter = $self->{_hcenter}; # Horizontal centering my $header = pack("vv", $record, $length); my $data = pack("v", $fHCenter); $self->_prepend($header, $data); } ############################################################################### # # _store_vcenter() # # Store the vertical centering VCENTER BIFF record. # sub _store_vcenter { my $self = shift; my $record = 0x0084; # Record identifier my $length = 0x0002; # Bytes to follow my $fVCenter = $self->{_vcenter}; # Horizontal centering my $header = pack("vv", $record, $length); my $data = pack("v", $fVCenter); $self->_prepend($header, $data); } ############################################################################### # # _store_margin_left() # # Store the LEFTMARGIN BIFF record. # sub _store_margin_left { my $self = shift; my $record = 0x0026; # Record identifier my $length = 0x0008; # Bytes to follow my $margin = $self->{_margin_left}; # Margin in inches my $header = pack("vv", $record, $length); my $data = pack("d", $margin); if ($self->{_byte_order}) { $data = reverse $data } $self->_prepend($header, $data); } ############################################################################### # # _store_margin_right() # # Store the RIGHTMARGIN BIFF record. # sub _store_margin_right { my $self = shift; my $record = 0x0027; # Record identifier my $length = 0x0008; # Bytes to follow my $margin = $self->{_margin_right}; # Margin in inches my $header = pack("vv", $record, $length); my $data = pack("d", $margin); if ($self->{_byte_order}) { $data = reverse $data } $self->_prepend($header, $data); } ############################################################################### # # _store_margin_top() # # Store the TOPMARGIN BIFF record. # sub _store_margin_top { my $self = shift; my $record = 0x0028; # Record identifier my $length = 0x0008; # Bytes to follow my $margin = $self->{_margin_top}; # Margin in inches my $header = pack("vv", $record, $length); my $data = pack("d", $margin); if ($self->{_byte_order}) { $data = reverse $data } $self->_prepend($header, $data); } ############################################################################### # # _store_margin_bottom() # # Store the BOTTOMMARGIN BIFF record. # sub _store_margin_bottom { my $self = shift; my $record = 0x0029; # Record identifier my $length = 0x0008; # Bytes to follow my $margin = $self->{_margin_bottom}; # Margin in inches my $header = pack("vv", $record, $length); my $data = pack("d", $margin); if ($self->{_byte_order}) { $data = reverse $data } $self->_prepend($header, $data); } ############################################################################### # # merge_cells($first_row, $first_col, $last_row, $last_col) # # This is an Excel97/2000 method. It is required to perform more complicated # merging than the normal align merge in Format.pm # sub merge_cells { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } my $record = 0x00E5; # Record identifier my $length = 0x000A; # Bytes to follow my $cref = 1; # Number of refs my $rwFirst = $_[0]; # First row in reference my $colFirst = $_[1]; # First col in reference my $rwLast = $_[2] || $rwFirst; # Last row in reference my $colLast = $_[3] || $colFirst; # Last col in reference # Excel doesn't allow a single cell to be merged return if $rwFirst == $rwLast and $colFirst == $colLast; # Swap last row/col with first row/col as necessary ($rwFirst, $rwLast ) = ($rwLast, $rwFirst ) if $rwFirst > $rwLast; ($colFirst, $colLast) = ($colLast, $colFirst) if $colFirst > $colLast; my $header = pack("vv", $record, $length); my $data = pack("vvvvv", $cref, $rwFirst, $rwLast, $colFirst, $colLast); $self->_append($header, $data); } ############################################################################### # # merge_range($row1, $col1, $row2, $col2, $string, $format, $encoding) # # This is a wrapper to ensure correct use of the merge_cells method, i.e., write # the first cell of the range, write the formatted blank cells in the range and # then call the merge_cells record. Failing to do the steps in this order will # cause Excel 97 to crash. # sub merge_range { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } croak "Incorrect number of arguments" if @_ != 6 and @_ != 7; croak "Format argument is not a format object" unless ref $_[5]; my $rwFirst = $_[0]; my $colFirst = $_[1]; my $rwLast = $_[2]; my $colLast = $_[3]; my $string = $_[4]; my $format = $_[5]; my $encoding = $_[6] ? 1 : 0; # Temp code to prevent merged formats in non-merged cells. my $error = "Error: refer to merge_range() in the documentation. " . "Can't use previously non-merged format in merged cells"; croak $error if $format->{_used_merge} == -1; $format->{_used_merge} = 0; # Until the end of this function. # Set the merge_range property of the format object. For BIFF8+. $format->set_merge_range(); # Excel doesn't allow a single cell to be merged croak "Can't merge single cell" if $rwFirst == $rwLast and $colFirst == $colLast; # Swap last row/col with first row/col as necessary ($rwFirst, $rwLast ) = ($rwLast, $rwFirst ) if $rwFirst > $rwLast; ($colFirst, $colLast) = ($colLast, $colFirst) if $colFirst > $colLast; # Write the first cell if ($encoding) { $self->write_utf16be_string($rwFirst, $colFirst, $string, $format); } else { $self->write ($rwFirst, $colFirst, $string, $format); } # Pad out the rest of the area with formatted blank cells. for my $row ($rwFirst .. $rwLast) { for my $col ($colFirst .. $colLast) { next if $row == $rwFirst and $col == $colFirst; $self->write_blank($row, $col, $format); } } $self->merge_cells($rwFirst, $colFirst, $rwLast, $colLast); # Temp code to prevent merged formats in non-merged cells. $format->{_used_merge} = 1; } ############################################################################### # # _store_print_headers() # # Write the PRINTHEADERS BIFF record. # sub _store_print_headers { my $self = shift; my $record = 0x002a; # Record identifier my $length = 0x0002; # Bytes to follow my $fPrintRwCol = $self->{_print_headers}; # Boolean flag my $header = pack("vv", $record, $length); my $data = pack("v", $fPrintRwCol); $self->_prepend($header, $data); } ############################################################################### # # _store_print_gridlines() # # Write the PRINTGRIDLINES BIFF record. Must be used in conjunction with the # GRIDSET record. # sub _store_print_gridlines { my $self = shift; my $record = 0x002b; # Record identifier my $length = 0x0002; # Bytes to follow my $fPrintGrid = $self->{_print_gridlines}; # Boolean flag my $header = pack("vv", $record, $length); my $data = pack("v", $fPrintGrid); $self->_prepend($header, $data); } ############################################################################### # # _store_gridset() # # Write the GRIDSET BIFF record. Must be used in conjunction with the # PRINTGRIDLINES record. # sub _store_gridset { my $self = shift; my $record = 0x0082; # Record identifier my $length = 0x0002; # Bytes to follow my $fGridSet = not $self->{_print_gridlines}; # Boolean flag my $header = pack("vv", $record, $length); my $data = pack("v", $fGridSet); $self->_prepend($header, $data); } ############################################################################### # # _store_guts() # # Write the GUTS BIFF record. This is used to configure the gutter margins # where Excel outline symbols are displayed. The visibility of the gutters is # controlled by a flag in WSBOOL. See also _store_wsbool(). # # We are all in the gutter but some of us are looking at the stars. # sub _store_guts { my $self = shift; my $record = 0x0080; # Record identifier my $length = 0x0008; # Bytes to follow my $dxRwGut = 0x0000; # Size of row gutter my $dxColGut = 0x0000; # Size of col gutter my $row_level = $self->{_outline_row_level}; my $col_level = 0; # Calculate the maximum column outline level. The equivalent calculation # for the row outline level is carried out in set_row(). # foreach my $colinfo (@{$self->{_colinfo}}) { # Skip cols without outline level info. next if @{$colinfo} < 6; $col_level = @{$colinfo}[5] if @{$colinfo}[5] > $col_level; } # Set the limits for the outline levels (0 <= x <= 7). $col_level = 0 if $col_level < 0; $col_level = 7 if $col_level > 7; # The displayed level is one greater than the max outline levels $row_level++ if $row_level > 0; $col_level++ if $col_level > 0; my $header = pack("vv", $record, $length); my $data = pack("vvvv", $dxRwGut, $dxColGut, $row_level, $col_level); $self->_prepend($header, $data); } ############################################################################### # # _store_wsbool() # # Write the WSBOOL BIFF record, mainly for fit-to-page. Used in conjunction # with the SETUP record. # sub _store_wsbool { my $self = shift; my $record = 0x0081; # Record identifier my $length = 0x0002; # Bytes to follow my $grbit = 0x0000; # Option flags # Set the option flags $grbit |= 0x0001; # Auto page breaks visible $grbit |= 0x0020 if $self->{_outline_style}; # Auto outline styles $grbit |= 0x0040 if $self->{_outline_below}; # Outline summary below $grbit |= 0x0080 if $self->{_outline_right}; # Outline summary right $grbit |= 0x0100 if $self->{_fit_page}; # Page setup fit to page $grbit |= 0x0400 if $self->{_outline_on}; # Outline symbols displayed my $header = pack("vv", $record, $length); my $data = pack("v", $grbit); $self->_prepend($header, $data); } ############################################################################### # # _store_hbreak() # # Write the HORIZONTALPAGEBREAKS BIFF record. # sub _store_hbreak { my $self = shift; # Return if the user hasn't specified pagebreaks return unless @{$self->{_hbreaks}}; # Sort and filter array of page breaks my @breaks = $self->_sort_pagebreaks(@{$self->{_hbreaks}}); my $record = 0x001b; # Record identifier my $cbrk = scalar @breaks; # Number of page breaks my $length = 2 + 6*$cbrk; # Bytes to follow my $header = pack("vv", $record, $length); my $data = pack("v", $cbrk); # Append each page break foreach my $break (@breaks) { $data .= pack("vvv", $break, 0x0000, 0x00ff); } $self->_prepend($header, $data); } ############################################################################### # # _store_vbreak() # # Write the VERTICALPAGEBREAKS BIFF record. # sub _store_vbreak { my $self = shift; # Return if the user hasn't specified pagebreaks return unless @{$self->{_vbreaks}}; # Sort and filter array of page breaks my @breaks = $self->_sort_pagebreaks(@{$self->{_vbreaks}}); my $record = 0x001a; # Record identifier my $cbrk = scalar @breaks; # Number of page breaks my $length = 2 + 6*$cbrk; # Bytes to follow my $header = pack("vv", $record, $length); my $data = pack("v", $cbrk); # Append each page break foreach my $break (@breaks) { $data .= pack("vvv", $break, 0x0000, 0xffff); } $self->_prepend($header, $data); } ############################################################################### # # _store_protect() # # Set the Biff PROTECT record to indicate that the worksheet is protected. # sub _store_protect { my $self = shift; # Exit unless sheet protection has been specified return unless $self->{_protect}; my $record = 0x0012; # Record identifier my $length = 0x0002; # Bytes to follow my $fLock = $self->{_protect}; # Worksheet is protected my $header = pack("vv", $record, $length); my $data = pack("v", $fLock); $self->_prepend($header, $data); } ############################################################################### # # _store_obj_protect() # # Set the Biff OBJPROTECT record to indicate that objects are protected. # sub _store_obj_protect { my $self = shift; # Exit unless sheet protection has been specified return unless $self->{_protect}; my $record = 0x0063; # Record identifier my $length = 0x0002; # Bytes to follow my $fLock = $self->{_protect}; # Worksheet is protected my $header = pack("vv", $record, $length); my $data = pack("v", $fLock); $self->_prepend($header, $data); } ############################################################################### # # _store_password() # # Write the worksheet PASSWORD record. # sub _store_password { my $self = shift; # Exit unless sheet protection and password have been specified return unless $self->{_protect} and defined $self->{_password}; my $record = 0x0013; # Record identifier my $length = 0x0002; # Bytes to follow my $wPassword = $self->{_password}; # Encoded password my $header = pack("vv", $record, $length); my $data = pack("v", $wPassword); $self->_prepend($header, $data); } # # Note about compatibility mode. # # Excel doesn't require every possible Biff record to be present in a file. # In particular if the indexing records INDEX, ROW and DBCELL aren't present # it just ignores the fact and reads the cells anyway. This is also true of # the EXTSST record. Gnumeric and OOo also take this approach. This allows # WriteExcel to ignore these records in order to minimise the amount of data # stored in memory. However, other third party applications that read Excel # files often expect these records to be present. In "compatibility mode" # WriteExcel writes these records and tries to be as close to an Excel # generated file as possible. # # This requires additional data to be stored in memory until the file is # about to be written. This incurs a memory and speed penalty and may not be # suitable for very large files. # ############################################################################### # # _store_table() # # Write cell data stored in the worksheet row/col table. # # This is only used when compatibity_mode() is in operation. # # This method writes ROW data, then cell data (NUMBER, LABELSST, etc) and then # DBCELL records in blocks of 32 rows. This is explained in detail (for a # change) in the Excel SDK and in the OOo Excel file format doc. # sub _store_table { my $self = shift; return unless $self->{_compatibility}; # Offset from the DBCELL record back to the first ROW of the 32 row block. my $row_offset = 0; # Track rows that have cell data or modified by set_row(). my @written_rows; # Write the ROW records with updated max/min col fields. # for my $row (0 .. $self->{_dim_rowmax} -1) { # Skip unless there is cell data in row or the row has been modified. next unless $self->{_table}->[$row] or $self->{_row_data}->{$row}; # Store the rows with data. push @written_rows, $row; # Increase the row offset by the length of a ROW record; $row_offset += 20; # The max/min cols in the ROW records are the same as in DIMENSIONS. my $col_min = $self->{_dim_colmin}; my $col_max = $self->{_dim_colmax}; # Write a user specified ROW record (modified by set_row()). if ($self->{_row_data}->{$row}) { # Rewrite the min and max cols for user defined row record. my $packed_row = $self->{_row_data}->{$row}; substr $packed_row, 6, 4, pack('vv', $col_min, $col_max); $self->_append($packed_row); } else { # Write a default Row record if there isn't a user defined ROW. $self->_write_row_default($row, $col_min, $col_max); } # If 32 rows have been written or we are at the last row in the # worksheet then write the cell data and the DBCELL record. # if (@written_rows == 32 or $row == $self->{_dim_rowmax} -1) { # Offsets to the first cell of each row. my @cell_offsets; push @cell_offsets, $row_offset - 20; # Write the cell data in each row and sum their lengths for the # cell offsets. # for my $row (@written_rows) { my $cell_offset = 0; for my $col (@{$self->{_table}->[$row]}) { next unless $col; $self->_append($col); my $length = length $col; $row_offset += $length; $cell_offset += $length; } push @cell_offsets, $cell_offset; } # The last offset isn't required. pop @cell_offsets; # Stores the DBCELL offset for use in the INDEX record. push @{$self->{_db_indices}}, $self->{_datasize}; # Write the DBCELL record. $self->_store_dbcell($row_offset, @cell_offsets); # Clear the variable for the next block of rows. @written_rows = (); @cell_offsets = (); $row_offset = 0; } } } ############################################################################### # # _store_dbcell() # # Store the DBCELL record using the offset calculated in _store_table(). # # This is only used when compatibity_mode() is in operation. # sub _store_dbcell { my $self = shift; my $row_offset = shift; my @cell_offsets = @_; my $record = 0x00D7; # Record identifier my $length = 4 + 2 * @cell_offsets; # Bytes to follow my $header = pack 'vv', $record, $length; my $data = pack 'V', $row_offset; $data .= pack 'v', $_ for @cell_offsets; $self->_append($header, $data); } ############################################################################### # # _store_index() # # Store the INDEX record using the DBCELL offsets calculated in _store_table(). # # This is only used when compatibity_mode() is in operation. # sub _store_index { my $self = shift; return unless $self->{_compatibility}; my @indices = @{$self->{_db_indices}}; my $reserved = 0x00000000; my $row_min = $self->{_dim_rowmin}; my $row_max = $self->{_dim_rowmax}; my $record = 0x020B; # Record identifier my $length = 16 + 4 * @indices; # Bytes to follow my $header = pack 'vv', $record, $length; my $data = pack 'VVVV', $reserved, $row_min, $row_max, $reserved; for my $index (@indices) { $data .= pack 'V', $index + $self->{_offset} + 20 + $length +4; } $self->_prepend($header, $data); } ############################################################################### # # insert_chart($row, $col, $chart, $x, $y, $scale_x, $scale_y) # # Insert a chart into a worksheet. The $chart argument should be a Chart # object or else it is assumed to be a filename of an external binary file. # The latter is for backwards compatibility. # sub insert_chart { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } my $row = $_[0]; my $col = $_[1]; my $chart = $_[2]; my $x_offset = $_[3] || 0; my $y_offset = $_[4] || 0; my $scale_x = $_[5] || 1; my $scale_y = $_[6] || 1; croak "Insufficient arguments in insert_chart()" unless @_ >= 3; if ( ref $chart ) { # Check for a Chart object. croak "Not a Chart object in insert_chart()" unless $chart->isa( 'Spreadsheet::WriteExcel::Chart' ); # Check that the chart is an embedded style chart. croak "Not a embedded style Chart object in insert_chart()" unless $chart->{_embedded}; } else { # Assume an external bin filename. croak "Couldn't locate $chart in insert_chart(): $!" unless -e $chart; } $self->{_charts}->{$row}->{$col} = [ $row, $col, $chart, $x_offset, $y_offset, $scale_x, $scale_y, ]; } # Older method name for backwards compatibility. *embed_chart = *insert_chart; ############################################################################### # # insert_image($row, $col, $filename, $x, $y, $scale_x, $scale_y) # # Insert an image into the worksheet. # sub insert_image { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } my $row = $_[0]; my $col = $_[1]; my $image = $_[2]; my $x_offset = $_[3] || 0; my $y_offset = $_[4] || 0; my $scale_x = $_[5] || 1; my $scale_y = $_[6] || 1; croak "Insufficient arguments in insert_image()" unless @_ >= 3; croak "Couldn't locate $image: $!" unless -e $image; $self->{_images}->{$row}->{$col} = [ $row, $col, $image, $x_offset, $y_offset, $scale_x, $scale_y, ]; } # Older method name for backwards compatibility. *insert_bitmap = *insert_image; ############################################################################### # # _position_object() # # Calculate the vertices that define the position of a graphical object within # the worksheet. # # +------------+------------+ # | A | B | # +-----+------------+------------+ # | |(x1,y1) | | # | 1 |(A1)._______|______ | # | | | | | # | | | | | # +-----+----| BITMAP |-----+ # | | | | | # | 2 | |______________. | # | | | (B2)| # | | | (x2,y2)| # +---- +------------+------------+ # # Example of a bitmap that covers some of the area from cell A1 to cell B2. # # Based on the width and height of the bitmap we need to calculate 8 vars: # $col_start, $row_start, $col_end, $row_end, $x1, $y1, $x2, $y2. # The width and height of the cells are also variable and have to be taken into # account. # The values of $col_start and $row_start are passed in from the calling # function. The values of $col_end and $row_end are calculated by subtracting # the width and height of the bitmap from the width and height of the # underlying cells. # The vertices are expressed as a percentage of the underlying cell width as # follows (rhs values are in pixels): # # x1 = X / W *1024 # y1 = Y / H *256 # x2 = (X-1) / W *1024 # y2 = (Y-1) / H *256 # # Where: X is distance from the left side of the underlying cell # Y is distance from the top of the underlying cell # W is the width of the cell # H is the height of the cell # # Note: the SDK incorrectly states that the height should be expressed as a # percentage of 1024. # sub _position_object { my $self = shift; my $col_start; # Col containing upper left corner of object my $x1; # Distance to left side of object my $row_start; # Row containing top left corner of object my $y1; # Distance to top of object my $col_end; # Col containing lower right corner of object my $x2; # Distance to right side of object my $row_end; # Row containing bottom right corner of object my $y2; # Distance to bottom of object my $width; # Width of image frame my $height; # Height of image frame ($col_start, $row_start, $x1, $y1, $width, $height) = @_; # Adjust start column for offsets that are greater than the col width while ($x1 >= $self->_size_col($col_start)) { $x1 -= $self->_size_col($col_start); $col_start++; } # Adjust start row for offsets that are greater than the row height while ($y1 >= $self->_size_row($row_start)) { $y1 -= $self->_size_row($row_start); $row_start++; } # Initialise end cell to the same as the start cell $col_end = $col_start; $row_end = $row_start; $width = $width + $x1; $height = $height + $y1; # Subtract the underlying cell widths to find the end cell of the image while ($width >= $self->_size_col($col_end)) { $width -= $self->_size_col($col_end); $col_end++; } # Subtract the underlying cell heights to find the end cell of the image while ($height >= $self->_size_row($row_end)) { $height -= $self->_size_row($row_end); $row_end++; } # Bitmap isn't allowed to start or finish in a hidden cell, i.e. a cell # with zero eight or width. # return if $self->_size_col($col_start) == 0; return if $self->_size_col($col_end) == 0; return if $self->_size_row($row_start) == 0; return if $self->_size_row($row_end) == 0; # Convert the pixel values to the percentage value expected by Excel $x1 = $x1 / $self->_size_col($col_start) * 1024; $y1 = $y1 / $self->_size_row($row_start) * 256; $x2 = $width / $self->_size_col($col_end) * 1024; $y2 = $height / $self->_size_row($row_end) * 256; # Simulate ceil() without calling POSIX::ceil(). $x1 = int($x1 +0.5); $y1 = int($y1 +0.5); $x2 = int($x2 +0.5); $y2 = int($y2 +0.5); return( $col_start, $x1, $row_start, $y1, $col_end, $x2, $row_end, $y2 ); } ############################################################################### # # _size_col($col) # # Convert the width of a cell from user's units to pixels. Excel rounds the # column width to the nearest pixel. If the width hasn't been set by the user # we use the default value. If the column is hidden we use a value of zero. # sub _size_col { my $self = shift; my $col = $_[0]; # Look up the cell value to see if it has been changed if (exists $self->{_col_sizes}->{$col}) { my $width = $self->{_col_sizes}->{$col}; # The relationship is different for user units less than 1. if ($width < 1) { return int($width *12); } else { return int($width *7 ) +5; } } else { return 64; } } ############################################################################### # # _size_row($row) # # Convert the height of a cell from user's units to pixels. By interpolation # the relationship is: y = 4/3x. If the height hasn't been set by the user we # use the default value. If the row is hidden we use a value of zero. (Not # possible to hide row yet). # sub _size_row { my $self = shift; my $row = $_[0]; # Look up the cell value to see if it has been changed if (exists $self->{_row_sizes}->{$row}) { if ($self->{_row_sizes}->{$row} == 0) { return 0; } else { return int (4/3 * $self->{_row_sizes}->{$row}); } } else { return 17; } } ############################################################################### # # _store_zoom($zoom) # # # Store the window zoom factor. This should be a reduced fraction but for # simplicity we will store all fractions with a numerator of 100. # sub _store_zoom { my $self = shift; # If scale is 100 we don't need to write a record return if $self->{_zoom} == 100; my $record = 0x00A0; # Record identifier my $length = 0x0004; # Bytes to follow my $header = pack("vv", $record, $length ); my $data = pack("vv", $self->{_zoom}, 100); $self->_append($header, $data); } ############################################################################### # # write_utf16be_string($row, $col, $string, $format) # # Write a Unicode string to the specified row and column (zero indexed). # $format is optional. # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # -3 : long string truncated to 255 chars # sub write_utf16be_string { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } if (@_ < 3) { return -1 } # Check the number of args my $record = 0x00FD; # Record identifier my $length = 0x000A; # Bytes to follow my $row = $_[0]; # Zero indexed row my $col = $_[1]; # Zero indexed column my $strlen = length($_[2]); my $str = $_[2]; my $xf = _XF($self, $row, $col, $_[3]); # The cell format my $encoding = 0x1; my $str_error = 0; # Check that row and col are valid and store max and min values return -2 if $self->_check_dimensions($row, $col); # Limit the utf16 string to the max number of chars (not bytes). if ($strlen > 32767* 2) { $str = substr($str, 0, 32767*2); $str_error = -3; } my $num_bytes = length $str; my $num_chars = int($num_bytes / 2); # Check for a valid 2-byte char string. croak "Uneven number of bytes in Unicode string" if $num_bytes % 2; # Change from UTF16 big-endian to little endian $str = pack "v*", unpack "n*", $str; # Add the encoding and length header to the string. my $str_header = pack("vC", $num_chars, $encoding); $str = $str_header . $str; if (not exists ${$self->{_str_table}}->{$str}) { ${$self->{_str_table}}->{$str} = ${$self->{_str_unique}}++; } ${$self->{_str_total}}++; my $header = pack("vv", $record, $length); my $data = pack("vvvV", $row, $col, $xf, ${$self->{_str_table}}->{$str}); # Store the data or write immediately depending on the compatibility mode. if ($self->{_compatibility}) { $self->{_table}->[$row]->[$col] = $header . $data; } else { $self->_append($header, $data); } return $str_error; } ############################################################################### # # write_utf16le_string($row, $col, $string, $format) # # Write a UTF-16LE string to the specified row and column (zero indexed). # $format is optional. # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # -3 : long string truncated to 255 chars # sub write_utf16le_string { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } if (@_ < 3) { return -1 } # Check the number of args my $record = 0x00FD; # Record identifier my $length = 0x000A; # Bytes to follow my $row = $_[0]; # Zero indexed row my $col = $_[1]; # Zero indexed column my $str = $_[2]; my $format = $_[3]; # The cell format # Change from UTF16 big-endian to little endian $str = pack "v*", unpack "n*", $str; return $self->write_utf16be_string($row, $col, $str, $format); } # Older method name for backwards compatibility. *write_unicode = *write_utf16be_string; *write_unicode_le = *write_utf16le_string; ############################################################################### # # _store_autofilters() # # Function to iterate through the columns that form part of an autofilter # range and write Biff AUTOFILTER records if a filter expression has been set. # sub _store_autofilters { my $self = shift; # Skip all columns if no filter have been set. return unless $self->{_filter_on}; my (undef, undef, $col1, $col2) = @{$self->{_filter_area}}; for my $i ($col1 .. $col2) { # Reverse order since records are being pre-pended. my $col = $col2 -$i; # Skip if column doesn't have an active filter. next unless $self->{_filter_cols}->{$col}; # Retrieve the filter tokens my @tokens = @{$self->{_filter_cols}->{$col}}; # Filter columns are relative to the first column in the filter. my $filter_col = $col - $col1; # Write the autofilter records. $self->_store_autofilter($filter_col, @tokens); } } ############################################################################### # # _store_autofilter() # # Function to write worksheet AUTOFILTER records. These contain 2 Biff Doper # structures to represent the 2 possible filter conditions. # sub _store_autofilter { my $self = shift; my $record = 0x009E; my $length = 0x0000; my $index = $_[0]; my $operator_1 = $_[1]; my $token_1 = $_[2]; my $join = $_[3]; # And/Or my $operator_2 = $_[4]; my $token_2 = $_[5]; my $top10_active = 0; my $top10_direction = 0; my $top10_percent = 0; my $top10_value = 101; my $grbit = $join; my $optimised_1 = 0; my $optimised_2 = 0; my $doper_1 = ''; my $doper_2 = ''; my $string_1 = ''; my $string_2 = ''; # Excel used an optimisation in the case of a simple equality. $optimised_1 = 1 if $operator_1 == 2; $optimised_2 = 1 if defined $operator_2 and $operator_2 == 2; # Convert non-simple equalities back to type 2. See _parse_filter_tokens(). $operator_1 = 2 if $operator_1 == 22; $operator_2 = 2 if defined $operator_2 and $operator_2 == 22; # Handle a "Top" style expression. if ($operator_1 >= 30) { # Remove the second expression if present. $operator_2 = undef; $token_2 = undef; # Set the active flag. $top10_active = 1; if ($operator_1 == 30 or $operator_1 == 31) { $top10_direction = 1; } if ($operator_1 == 31 or $operator_1 == 33) { $top10_percent = 1; } if ($top10_direction == 1) { $operator_1 = 6 } else { $operator_1 = 3 } $top10_value = $token_1; $token_1 = 0; } $grbit |= $optimised_1 << 2; $grbit |= $optimised_2 << 3; $grbit |= $top10_active << 4; $grbit |= $top10_direction << 5; $grbit |= $top10_percent << 6; $grbit |= $top10_value << 7; ($doper_1, $string_1) = $self->_pack_doper($operator_1, $token_1); ($doper_2, $string_2) = $self->_pack_doper($operator_2, $token_2); my $data = pack 'v', $index; $data .= pack 'v', $grbit; $data .= $doper_1; $data .= $doper_2; $data .= $string_1; $data .= $string_2; $length = length $data; my $header = pack('vv', $record, $length); $self->_prepend($header, $data); } ############################################################################### # # _pack_doper() # # Create a Biff Doper structure that represents a filter expression. Depending # on the type of the token we pack an Empty, String or Number doper. # sub _pack_doper { my $self = shift; my $operator = $_[0]; my $token = $_[1]; my $doper = ''; my $string = ''; # Return default doper for non-defined filters. if (not defined $operator) { return ($self->_pack_unused_doper, $string); } if ($token =~ /^blanks|nonblanks$/i) { $doper = $self->_pack_blanks_doper($operator, $token); } elsif ($operator == 2 or $token !~ /^([+-]?)(?=\d|\.\d)\d*(\.\d*)?([Ee]([+-]?\d+))?$/) { # Excel treats all tokens as strings if the operator is equality, =. $string = $token; my $encoding = 0; my $length = length $string; # Handle utf8 strings in perl 5.8. if ($] >= 5.008) { require Encode; if (Encode::is_utf8($string)) { $string = Encode::encode("UTF-16BE", $string); $encoding = 1; } } $string = pack('C', $encoding) . $string; $doper = $self->_pack_string_doper($operator, $length); } else { $string = ''; $doper = $self->_pack_number_doper($operator, $token); } return ($doper, $string); } ############################################################################### # # _pack_unused_doper() # # Pack an empty Doper structure. # sub _pack_unused_doper { my $self = shift; return pack 'C10', (0x0) x 10; } ############################################################################### # # _pack_blanks_doper() # # Pack an Blanks/NonBlanks Doper structure. # sub _pack_blanks_doper { my $self = shift; my $operator = $_[0]; my $token = $_[1]; my $type; if ($token eq 'blanks') { $type = 0x0C; $operator = 2; } else { $type = 0x0E; $operator = 5; } my $doper = pack 'CCVV', $type, # Data type $operator, # 0x0000, # Reserved 0x0000; # Reserved return $doper; } ############################################################################### # # _pack_string_doper() # # Pack an string Doper structure. # sub _pack_string_doper { my $self = shift; my $operator = $_[0]; my $length = $_[1]; my $doper = pack 'CCVCCCC', 0x06, # Data type $operator, # 0x0000, # Reserved $length, # String char length. 0x0, 0x0, 0x0; # Reserved return $doper; } ############################################################################### # # _pack_number_doper() # # Pack an IEEE double number Doper structure. # sub _pack_number_doper { my $self = shift; my $operator = $_[0]; my $number = $_[1]; $number = pack 'd', $number; $number = reverse $number if $self->{_byte_order}; my $doper = pack 'CC', 0x04, $operator; $doper .= $number; return $doper; } # # Methods related to comments and MSO objects. # ############################################################################### # # _prepare_images() # # Turn the HoH that stores the images into an array for easier handling. # sub _prepare_images { my $self = shift; my $count = 0; my @images; # We sort the images by row and column but that isn't strictly required. # my @rows = sort {$a <=> $b} keys %{$self->{_images}}; for my $row (@rows) { my @cols = sort {$a <=> $b} keys %{$self->{_images}->{$row}}; for my $col (@cols) { push @images, $self->{_images}->{$row}->{$col}; $count++; } } $self->{_images} = {}; $self->{_images_array} = \@images; return $count; } ############################################################################### # # _prepare_comments() # # Turn the HoH that stores the comments into an array for easier handling. # sub _prepare_comments { my $self = shift; my $count = 0; my @comments; # We sort the comments by row and column but that isn't strictly required. # my @rows = sort {$a <=> $b} keys %{$self->{_comments}}; for my $row (@rows) { my @cols = sort {$a <=> $b} keys %{$self->{_comments}->{$row}}; for my $col (@cols) { push @comments, $self->{_comments}->{$row}->{$col}; $count++; } } $self->{_comments} = {}; $self->{_comments_array} = \@comments; return $count; } ############################################################################### # # _prepare_charts() # # Turn the HoH that stores the charts into an array for easier handling. # sub _prepare_charts { my $self = shift; my $count = 0; my @charts; # We sort the charts by row and column but that isn't strictly required. # my @rows = sort {$a <=> $b} keys %{$self->{_charts}}; for my $row (@rows) { my @cols = sort {$a <=> $b} keys %{$self->{_charts}->{$row}}; for my $col (@cols) { push @charts, $self->{_charts}->{$row}->{$col}; $count++; } } $self->{_charts} = {}; $self->{_charts_array} = \@charts; return $count; } ############################################################################### # # _store_images() # # Store the collections of records that make up images. # sub _store_images { my $self = shift; my $record = 0x00EC; # Record identifier my $length = 0x0000; # Bytes to follow my @ids = @{$self->{_object_ids }}; my $spid = shift @ids; my @images = @{$self->{_images_array}}; my $num_images = scalar @images; my $num_filters = $self->{_filter_count}; my $num_comments = @{$self->{_comments_array}}; my $num_charts = @{$self->{_charts_array }}; # Skip this if there aren't any images. return unless $num_images; for my $i (0 .. $num_images-1) { my $row = $images[$i]->[0]; my $col = $images[$i]->[1]; my $name = $images[$i]->[2]; my $x_offset = $images[$i]->[3]; my $y_offset = $images[$i]->[4]; my $scale_x = $images[$i]->[5]; my $scale_y = $images[$i]->[6]; my $image_id = $images[$i]->[7]; my $type = $images[$i]->[8]; my $width = $images[$i]->[9]; my $height = $images[$i]->[10]; $width *= $scale_x if $scale_x; $height *= $scale_y if $scale_y; # Calculate the positions of image object. my @vertices = $self->_position_object( $col, $row, $x_offset, $y_offset, $width, $height ); if ($i == 0) { # Write the parent MSODRAWIING record. my $dg_length = 156 + 84*($num_images -1); my $spgr_length = 132 + 84*($num_images -1); $dg_length += 120 *$num_charts; $spgr_length += 120 *$num_charts; $dg_length += 96 *$num_filters; $spgr_length += 96 *$num_filters; $dg_length += 128 *$num_comments; $spgr_length += 128 *$num_comments; my $data = $self->_store_mso_dg_container($dg_length); $data .= $self->_store_mso_dg(@ids); $data .= $self->_store_mso_spgr_container($spgr_length); $data .= $self->_store_mso_sp_container(40); $data .= $self->_store_mso_spgr(); $data .= $self->_store_mso_sp(0x0, $spid++, 0x0005); $data .= $self->_store_mso_sp_container(76); $data .= $self->_store_mso_sp(75, $spid++, 0x0A00); $data .= $self->_store_mso_opt_image($image_id); $data .= $self->_store_mso_client_anchor(2, @vertices); $data .= $self->_store_mso_client_data(); $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } else { # Write the child MSODRAWIING record. my $data = $self->_store_mso_sp_container(76); $data .= $self->_store_mso_sp(75, $spid++, 0x0A00); $data .= $self->_store_mso_opt_image($image_id); $data .= $self->_store_mso_client_anchor(2, @vertices); $data .= $self->_store_mso_client_data(); $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } $self->_store_obj_image($i+1); } $self->{_object_ids}->[0] = $spid; } ############################################################################### # # _store_charts() # # Store the collections of records that make up charts. # sub _store_charts { my $self = shift; my $record = 0x00EC; # Record identifier my $length = 0x0000; # Bytes to follow my @ids = @{$self->{_object_ids}}; my $spid = shift @ids; my @charts = @{$self->{_charts_array}}; my $num_charts = scalar @charts; my $num_filters = $self->{_filter_count}; my $num_comments = @{$self->{_comments_array}}; # Number of objects written so far. my $num_objects = @{$self->{_images_array}}; # Skip this if there aren't any charts. return unless $num_charts; for my $i (0 .. $num_charts-1 ) { my $row = $charts[$i]->[0]; my $col = $charts[$i]->[1]; my $chart = $charts[$i]->[2]; my $x_offset = $charts[$i]->[3]; my $y_offset = $charts[$i]->[4]; my $scale_x = $charts[$i]->[5]; my $scale_y = $charts[$i]->[6]; my $width = 526; my $height = 319; $width *= $scale_x if $scale_x; $height *= $scale_y if $scale_y; # Calculate the positions of chart object. my @vertices = $self->_position_object( $col, $row, $x_offset, $y_offset, $width, $height ); if ($i == 0 and not $num_objects) { # Write the parent MSODRAWIING record. my $dg_length = 192 + 120*($num_charts -1); my $spgr_length = 168 + 120*($num_charts -1); $dg_length += 96 *$num_filters; $spgr_length += 96 *$num_filters; $dg_length += 128 *$num_comments; $spgr_length += 128 *$num_comments; my $data = $self->_store_mso_dg_container($dg_length); $data .= $self->_store_mso_dg(@ids); $data .= $self->_store_mso_spgr_container($spgr_length); $data .= $self->_store_mso_sp_container(40); $data .= $self->_store_mso_spgr(); $data .= $self->_store_mso_sp(0x0, $spid++, 0x0005); $data .= $self->_store_mso_sp_container(112); $data .= $self->_store_mso_sp(201, $spid++, 0x0A00); $data .= $self->_store_mso_opt_chart(); $data .= $self->_store_mso_client_anchor(0, @vertices); $data .= $self->_store_mso_client_data(); $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } else { # Write the child MSODRAWIING record. my $data = $self->_store_mso_sp_container(112); $data .= $self->_store_mso_sp(201, $spid++, 0x0A00); $data .= $self->_store_mso_opt_chart(); $data .= $self->_store_mso_client_anchor(0, @vertices); $data .= $self->_store_mso_client_data(); $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } $self->_store_obj_chart($num_objects+$i+1); $self->_store_chart_binary($chart); } # Simulate the EXTERNSHEET link between the chart and data using a formula # such as '=Sheet1!A1'. # TODO. Won't work for external data refs. Also should use a more direct # method. # my $name = $self->{_name}; if ($self->{_encoding} && $] >= 5.008) { require Encode; $name = Encode::decode('UTF-16BE', $name); } $self->store_formula("='$name'!A1"); $self->{_object_ids}->[0] = $spid; } ############################################################################### # # _store_chart_binary # # Add the binary data for a chart. This could either be from a Chart object # or from an external binary file (for backwards compatibility). # sub _store_chart_binary { my $self = shift; my $chart = $_[0]; my $tmp; if ( ref $chart ) { $chart->_close(); my $tmp = $chart->get_data(); $self->_append( $tmp ); } else { my $filehandle = FileHandle->new( $chart ) or die "Couldn't open $chart in insert_chart(): $!.\n"; binmode( $filehandle ); while ( read( $filehandle, $tmp, 4096 ) ) { $self->_append( $tmp ); } } } ############################################################################### # # _store_filters() # # Store the collections of records that make up filters. # sub _store_filters { my $self = shift; my $record = 0x00EC; # Record identifier my $length = 0x0000; # Bytes to follow my @ids = @{$self->{_object_ids}}; my $spid = shift @ids; my $filter_area = $self->{_filter_area}; my $num_filters = $self->{_filter_count}; my $num_comments = @{$self->{_comments_array}}; # Number of objects written so far. my $num_objects = @{$self->{_images_array}} + @{$self->{_charts_array}}; # Skip this if there aren't any filters. return unless $num_filters; my ($row1, $row2, $col1, $col2) = @$filter_area; for my $i (0 .. $num_filters-1 ) { my @vertices = ( $col1 +$i, 0, $row1, 0, $col1 +$i +1, 0, $row1 +1, 0); if ($i == 0 and not $num_objects) { # Write the parent MSODRAWIING record. my $dg_length = 168 + 96*($num_filters -1); my $spgr_length = 144 + 96*($num_filters -1); $dg_length += 128 *$num_comments; $spgr_length += 128 *$num_comments; my $data = $self->_store_mso_dg_container($dg_length); $data .= $self->_store_mso_dg(@ids); $data .= $self->_store_mso_spgr_container($spgr_length); $data .= $self->_store_mso_sp_container(40); $data .= $self->_store_mso_spgr(); $data .= $self->_store_mso_sp(0x0, $spid++, 0x0005); $data .= $self->_store_mso_sp_container(88); $data .= $self->_store_mso_sp(201, $spid++, 0x0A00); $data .= $self->_store_mso_opt_filter(); $data .= $self->_store_mso_client_anchor(1, @vertices); $data .= $self->_store_mso_client_data(); $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } else { # Write the child MSODRAWIING record. my $data = $self->_store_mso_sp_container(88); $data .= $self->_store_mso_sp(201, $spid++, 0x0A00); $data .= $self->_store_mso_opt_filter(); $data .= $self->_store_mso_client_anchor(1, @vertices); $data .= $self->_store_mso_client_data(); $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } $self->_store_obj_filter($num_objects+$i+1, $col1 +$i); } # Simulate the EXTERNSHEET link between the filter and data using a formula # such as '=Sheet1!A1'. # TODO. Won't work for external data refs. Also should use a more direct # method. # my $formula = "='$self->{_name}'!A1"; $self->store_formula($formula); $self->{_object_ids}->[0] = $spid; } ############################################################################### # # _store_comments() # # Store the collections of records that make up cell comments. # # NOTE: We write the comment objects last since that makes it a little easier # to write the NOTE records directly after the MSODRAWIING records. # sub _store_comments { my $self = shift; my $record = 0x00EC; # Record identifier my $length = 0x0000; # Bytes to follow my @ids = @{$self->{_object_ids}}; my $spid = shift @ids; my @comments = @{$self->{_comments_array}}; my $num_comments = scalar @comments; # Number of objects written so far. my $num_objects = @{$self->{_images_array}} + $self->{_filter_count} + @{$self->{_charts_array}}; # Skip this if there aren't any comments. return unless $num_comments; for my $i (0 .. $num_comments-1) { my $row = $comments[$i]->[0]; my $col = $comments[$i]->[1]; my $str = $comments[$i]->[2]; my $encoding = $comments[$i]->[3]; my $visible = $comments[$i]->[6]; my $color = $comments[$i]->[7]; my @vertices = @{$comments[$i]->[8]}; my $str_len = length $str; $str_len /= 2 if $encoding; # Num of chars not bytes. my $formats = [[0, 9], [$str_len, 0]]; if ($i == 0 and not $num_objects) { # Write the parent MSODRAWIING record. my $dg_length = 200 + 128*($num_comments -1); my $spgr_length = 176 + 128*($num_comments -1); my $data = $self->_store_mso_dg_container($dg_length); $data .= $self->_store_mso_dg(@ids); $data .= $self->_store_mso_spgr_container($spgr_length); $data .= $self->_store_mso_sp_container(40); $data .= $self->_store_mso_spgr(); $data .= $self->_store_mso_sp(0x0, $spid++, 0x0005); $data .= $self->_store_mso_sp_container(120); $data .= $self->_store_mso_sp(202, $spid++, 0x0A00); $data .= $self->_store_mso_opt_comment(0x80, $visible, $color); $data .= $self->_store_mso_client_anchor(3, @vertices); $data .= $self->_store_mso_client_data(); $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } else { # Write the child MSODRAWIING record. my $data = $self->_store_mso_sp_container(120); $data .= $self->_store_mso_sp(202, $spid++, 0x0A00); $data .= $self->_store_mso_opt_comment(0x80, $visible, $color); $data .= $self->_store_mso_client_anchor(3, @vertices); $data .= $self->_store_mso_client_data(); $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } $self->_store_obj_comment($num_objects+$i+1); $self->_store_mso_drawing_text_box(); $self->_store_txo($str_len); $self->_store_txo_continue_1($str, $encoding); $self->_store_txo_continue_2($formats); } # Write the NOTE records after MSODRAWIING records. for my $i (0 .. $num_comments-1) { my $row = $comments[$i]->[0]; my $col = $comments[$i]->[1]; my $author = $comments[$i]->[4]; my $author_enc = $comments[$i]->[5]; my $visible = $comments[$i]->[6]; $self->_store_note($row, $col, $num_objects+$i+1, $author, $author_enc, $visible); } } ############################################################################### # # _store_mso_dg_container() # # Write the Escher DgContainer record that is part of MSODRAWING. # sub _store_mso_dg_container { my $self = shift; my $type = 0xF002; my $version = 15; my $instance = 0; my $data = ''; my $length = $_[0]; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_dg() # # Write the Escher Dg record that is part of MSODRAWING. # sub _store_mso_dg { my $self = shift; my $type = 0xF008; my $version = 0; my $instance = $_[0]; my $data = ''; my $length = 8; my $num_shapes = $_[1]; my $max_spid = $_[2]; $data = pack "VV", $num_shapes, $max_spid; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_spgr_container() # # Write the Escher SpgrContainer record that is part of MSODRAWING. # sub _store_mso_spgr_container { my $self = shift; my $type = 0xF003; my $version = 15; my $instance = 0; my $data = ''; my $length = $_[0]; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_sp_container() # # Write the Escher SpContainer record that is part of MSODRAWING. # sub _store_mso_sp_container { my $self = shift; my $type = 0xF004; my $version = 15; my $instance = 0; my $data = ''; my $length = $_[0]; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_spgr() # # Write the Escher Spgr record that is part of MSODRAWING. # sub _store_mso_spgr { my $self = shift; my $type = 0xF009; my $version = 1; my $instance = 0; my $data = pack "VVVV", 0, 0, 0, 0; my $length = 16; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_sp() # # Write the Escher Sp record that is part of MSODRAWING. # sub _store_mso_sp { my $self = shift; my $type = 0xF00A; my $version = 2; my $instance = $_[0]; my $data = ''; my $length = 8; my $spid = $_[1]; my $options = $_[2]; $data = pack "VV", $spid, $options; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_opt_comment() # # Write the Escher Opt record that is part of MSODRAWING. # sub _store_mso_opt_comment { my $self = shift; my $type = 0xF00B; my $version = 3; my $instance = 9; my $data = ''; my $length = 54; my $spid = $_[0]; my $visible = $_[1]; my $colour = $_[2] || 0x50; # Use the visible flag if set by the user or else use the worksheet value. # Note that the value used is the opposite of _store_note(). # if (defined $visible) { $visible = $visible ? 0x0000 : 0x0002; } else { $visible = $self->{_comments_visible} ? 0x0000 : 0x0002; } $data = pack "V", $spid; $data .= pack "H*", '0000BF00080008005801000000008101' ; $data .= pack "C", $colour; $data .= pack "H*", '000008830150000008BF011000110001' . '02000000003F0203000300BF03'; $data .= pack "v", $visible; $data .= pack "H*", '0A00'; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_opt_image() # # Write the Escher Opt record that is part of MSODRAWING. # sub _store_mso_opt_image { my $self = shift; my $type = 0xF00B; my $version = 3; my $instance = 3; my $data = ''; my $length = undef; my $spid = $_[0]; $data = pack 'v', 0x4104; # Blip -> pib $data .= pack 'V', $spid; $data .= pack 'v', 0x01BF; # Fill Style -> fNoFillHitTest $data .= pack 'V', 0x00010000; $data .= pack 'v', 0x03BF; # Group Shape -> fPrint $data .= pack 'V', 0x00080000; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_opt_chart() # # Write the Escher Opt record that is part of MSODRAWING. # sub _store_mso_opt_chart { my $self = shift; my $type = 0xF00B; my $version = 3; my $instance = 9; my $data = ''; my $length = undef; $data = pack 'v', 0x007F; # Protection -> fLockAgainstGrouping $data .= pack 'V', 0x01040104; $data .= pack 'v', 0x00BF; # Text -> fFitTextToShape $data .= pack 'V', 0x00080008; $data .= pack 'v', 0x0181; # Fill Style -> fillColor $data .= pack 'V', 0x0800004E ; $data .= pack 'v', 0x0183; # Fill Style -> fillBackColor $data .= pack 'V', 0x0800004D; $data .= pack 'v', 0x01BF; # Fill Style -> fNoFillHitTest $data .= pack 'V', 0x00110010; $data .= pack 'v', 0x01C0; # Line Style -> lineColor $data .= pack 'V', 0x0800004D; $data .= pack 'v', 0x01FF; # Line Style -> fNoLineDrawDash $data .= pack 'V', 0x00080008; $data .= pack 'v', 0x023F; # Shadow Style -> fshadowObscured $data .= pack 'V', 0x00020000; $data .= pack 'v', 0x03BF; # Group Shape -> fPrint $data .= pack 'V', 0x00080000; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_opt_filter() # # Write the Escher Opt record that is part of MSODRAWING. # sub _store_mso_opt_filter { my $self = shift; my $type = 0xF00B; my $version = 3; my $instance = 5; my $data = ''; my $length = undef; $data = pack 'v', 0x007F; # Protection -> fLockAgainstGrouping $data .= pack 'V', 0x01040104; $data .= pack 'v', 0x00BF; # Text -> fFitTextToShape $data .= pack 'V', 0x00080008; $data .= pack 'v', 0x01BF; # Fill Style -> fNoFillHitTest $data .= pack 'V', 0x00010000; $data .= pack 'v', 0x01FF; # Line Style -> fNoLineDrawDash $data .= pack 'V', 0x00080000; $data .= pack 'v', 0x03BF; # Group Shape -> fPrint $data .= pack 'V', 0x000A0000; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_client_anchor() # # Write the Escher ClientAnchor record that is part of MSODRAWING. # sub _store_mso_client_anchor { my $self = shift; my $type = 0xF010; my $version = 0; my $instance = 0; my $data = ''; my $length = 18; my $flag = shift; my $col_start = $_[0]; # Col containing upper left corner of object my $x1 = $_[1]; # Distance to left side of object my $row_start = $_[2]; # Row containing top left corner of object my $y1 = $_[3]; # Distance to top of object my $col_end = $_[4]; # Col containing lower right corner of object my $x2 = $_[5]; # Distance to right side of object my $row_end = $_[6]; # Row containing bottom right corner of object my $y2 = $_[7]; # Distance to bottom of object $data = pack "v9", $flag, $col_start, $x1, $row_start, $y1, $col_end, $x2, $row_end, $y2; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_mso_client_data() # # Write the Escher ClientData record that is part of MSODRAWING. # sub _store_mso_client_data { my $self = shift; my $type = 0xF011; my $version = 0; my $instance = 0; my $data = ''; my $length = 0; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_obj_comment() # # Write the OBJ record that is part of cell comments. # sub _store_obj_comment { my $self = shift; my $record = 0x005D; # Record identifier my $length = 0x0034; # Bytes to follow my $obj_id = $_[0]; # Object ID number. my $obj_type = 0x0019; # Object type (comment). my $data = ''; # Record data. my $sub_record = 0x0000; # Sub-record identifier. my $sub_length = 0x0000; # Length of sub-record. my $sub_data = ''; # Data of sub-record. my $options = 0x4011; my $reserved = 0x0000; # Add ftCmo (common object data) subobject $sub_record = 0x0015; # ftCmo $sub_length = 0x0012; $sub_data = pack "vvvVVV", $obj_type, $obj_id, $options, $reserved, $reserved, $reserved; $data = pack("vv", $sub_record, $sub_length); $data .= $sub_data; # Add ftNts (note structure) subobject $sub_record = 0x000D; # ftNts $sub_length = 0x0016; $sub_data = pack "VVVVVv", ($reserved) x 6; $data .= pack("vv", $sub_record, $sub_length); $data .= $sub_data; # Add ftEnd (end of object) subobject $sub_record = 0x0000; # ftNts $sub_length = 0x0000; $data .= pack("vv", $sub_record, $sub_length); # Pack the record. my $header = pack("vv", $record, $length); $self->_append($header, $data); } ############################################################################### # # _store_obj_image() # # Write the OBJ record that is part of image records. # sub _store_obj_image { my $self = shift; my $record = 0x005D; # Record identifier my $length = 0x0026; # Bytes to follow my $obj_id = $_[0]; # Object ID number. my $obj_type = 0x0008; # Object type (Picture). my $data = ''; # Record data. my $sub_record = 0x0000; # Sub-record identifier. my $sub_length = 0x0000; # Length of sub-record. my $sub_data = ''; # Data of sub-record. my $options = 0x6011; my $reserved = 0x0000; # Add ftCmo (common object data) subobject $sub_record = 0x0015; # ftCmo $sub_length = 0x0012; $sub_data = pack 'vvvVVV', $obj_type, $obj_id, $options, $reserved, $reserved, $reserved; $data = pack 'vv', $sub_record, $sub_length; $data .= $sub_data; # Add ftCf (Clipboard format) subobject $sub_record = 0x0007; # ftCf $sub_length = 0x0002; $sub_data = pack 'v', 0xFFFF; $data .= pack 'vv', $sub_record, $sub_length; $data .= $sub_data; # Add ftPioGrbit (Picture option flags) subobject $sub_record = 0x0008; # ftPioGrbit $sub_length = 0x0002; $sub_data = pack 'v', 0x0001; $data .= pack 'vv', $sub_record, $sub_length; $data .= $sub_data; # Add ftEnd (end of object) subobject $sub_record = 0x0000; # ftNts $sub_length = 0x0000; $data .= pack 'vv', $sub_record, $sub_length; # Pack the record. my $header = pack('vv', $record, $length); $self->_append($header, $data); } ############################################################################### # # _store_obj_chart() # # Write the OBJ record that is part of chart records. # sub _store_obj_chart { my $self = shift; my $record = 0x005D; # Record identifier my $length = 0x001A; # Bytes to follow my $obj_id = $_[0]; # Object ID number. my $obj_type = 0x0005; # Object type (chart). my $data = ''; # Record data. my $sub_record = 0x0000; # Sub-record identifier. my $sub_length = 0x0000; # Length of sub-record. my $sub_data = ''; # Data of sub-record. my $options = 0x6011; my $reserved = 0x0000; # Add ftCmo (common object data) subobject $sub_record = 0x0015; # ftCmo $sub_length = 0x0012; $sub_data = pack 'vvvVVV', $obj_type, $obj_id, $options, $reserved, $reserved, $reserved; $data = pack 'vv', $sub_record, $sub_length; $data .= $sub_data; # Add ftEnd (end of object) subobject $sub_record = 0x0000; # ftNts $sub_length = 0x0000; $data .= pack 'vv', $sub_record, $sub_length; # Pack the record. my $header = pack('vv', $record, $length); $self->_append($header, $data); } ############################################################################### # # _store_obj_filter() # # Write the OBJ record that is part of filter records. # sub _store_obj_filter { my $self = shift; my $record = 0x005D; # Record identifier my $length = 0x0046; # Bytes to follow my $obj_id = $_[0]; # Object ID number. my $obj_type = 0x0014; # Object type (combo box). my $data = ''; # Record data. my $sub_record = 0x0000; # Sub-record identifier. my $sub_length = 0x0000; # Length of sub-record. my $sub_data = ''; # Data of sub-record. my $options = 0x2101; my $reserved = 0x0000; # Add ftCmo (common object data) subobject $sub_record = 0x0015; # ftCmo $sub_length = 0x0012; $sub_data = pack 'vvvVVV', $obj_type, $obj_id, $options, $reserved, $reserved, $reserved; $data = pack 'vv', $sub_record, $sub_length; $data .= $sub_data; # Add ftSbs Scroll bar subobject $sub_record = 0x000C; # ftSbs $sub_length = 0x0014; $sub_data = pack 'H*', '0000000000000000640001000A00000010000100'; $data .= pack 'vv', $sub_record, $sub_length; $data .= $sub_data; # Add ftLbsData (List box data) subobject $sub_record = 0x0013; # ftLbsData $sub_length = 0x1FEE; # Special case (undocumented). # If the filter is active we set one of the undocumented flags. my $col = $_[1]; if ($self->{_filter_cols}->{$col}) { $sub_data = pack 'H*', '000000000100010300000A0008005700'; } else { $sub_data = pack 'H*', '00000000010001030000020008005700'; } $data .= pack 'vv', $sub_record, $sub_length; $data .= $sub_data; # Add ftEnd (end of object) subobject $sub_record = 0x0000; # ftNts $sub_length = 0x0000; $data .= pack 'vv', $sub_record, $sub_length; # Pack the record. my $header = pack('vv', $record, $length); $self->_append($header, $data); } ############################################################################### # # _store_mso_drawing_text_box() # # Write the MSODRAWING ClientTextbox record that is part of comments. # sub _store_mso_drawing_text_box { my $self = shift; my $record = 0x00EC; # Record identifier my $length = 0x0008; # Bytes to follow my $data = $self->_store_mso_client_text_box(); my $header = pack("vv", $record, $length); $self->_append($header, $data); } ############################################################################### # # _store_mso_client_text_box() # # Write the Escher ClientTextbox record that is part of MSODRAWING. # sub _store_mso_client_text_box { my $self = shift; my $type = 0xF00D; my $version = 0; my $instance = 0; my $data = ''; my $length = 0; return $self->_add_mso_generic($type, $version, $instance, $data, $length); } ############################################################################### # # _store_txo() # # Write the worksheet TXO record that is part of cell comments. # sub _store_txo { my $self = shift; my $record = 0x01B6; # Record identifier my $length = 0x0012; # Bytes to follow my $string_len = $_[0]; # Length of the note text. my $format_len = $_[1] || 16; # Length of the format runs. my $rotation = $_[2] || 0; # Options my $grbit = 0x0212; # Options my $reserved = 0x0000; # Options # Pack the record. my $header = pack("vv", $record, $length); my $data = pack("vvVvvvV", $grbit, $rotation, $reserved, $reserved, $string_len, $format_len, $reserved); $self->_append($header, $data); } ############################################################################### # # _store_txo_continue_1() # # Write the first CONTINUE record to follow the TXO record. It contains the # text data. # sub _store_txo_continue_1 { my $self = shift; my $record = 0x003C; # Record identifier my $string = $_[0]; # Comment string. my $encoding = $_[1] || 0; # Encoding of the string. # Split long comment strings into smaller continue blocks if necessary. # We can't let BIFFwriter::_add_continue() handled this since an extra # encoding byte has to be added similar to the SST block. # # We make the limit size smaller than the _add_continue() size and even # so that UTF16 chars occur in the same block. # my $limit = 8218; while (length($string) > $limit) { my $tmp_str = substr($string, 0, $limit, ""); my $data = pack("C", $encoding) . $tmp_str; my $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } # Pack the record. my $data = pack("C", $encoding) . $string; my $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } ############################################################################### # # _store_txo_continue_2() # # Write the second CONTINUE record to follow the TXO record. It contains the # formatting information for the string. # sub _store_txo_continue_2 { my $self = shift; my $record = 0x003C; # Record identifier my $length = 0x0000; # Bytes to follow my $formats = $_[0]; # Formatting information # Pack the record. my $data = ''; for my $a_ref (@$formats) { $data .= pack "vvV", $a_ref->[0], $a_ref->[1], 0x0; } $length = length $data; my $header = pack("vv", $record, $length); $self->_append($header, $data); } ############################################################################### # # _store_note() # # Write the worksheet NOTE record that is part of cell comments. # sub _store_note { my $self = shift; my $record = 0x001C; # Record identifier my $length = 0x000C; # Bytes to follow my $row = $_[0]; my $col = $_[1]; my $obj_id = $_[2]; my $author = $_[3] || $self->{_comments_author}; my $author_enc = $_[4] || $self->{_comments_author_enc}; my $visible = $_[5]; # Use the visible flag if set by the user or else use the worksheet value. # The flag is also set in _store_mso_opt_comment() but with the opposite # value. if (defined $visible) { $visible = $visible ? 0x0002 : 0x0000; } else { $visible = $self->{_comments_visible} ? 0x0002 : 0x0000; } # Get the number of chars in the author string (not bytes). my $num_chars = length $author; $num_chars /= 2 if $author_enc; # Null terminate the author string. $author .= "\0"; # Pack the record. my $data = pack("vvvvvC", $row, $col, $visible, $obj_id, $num_chars, $author_enc); $length = length($data) + length($author); my $header = pack("vv", $record, $length); $self->_append($header, $data, $author); } ############################################################################### # # _comment_params() # # This method handles the additional optional parameters to write_comment() as # well as calculating the comment object position and vertices. # sub _comment_params { my $self = shift; my $row = shift; my $col = shift; my $string = shift; my $default_width = 128; my $default_height = 74; my %params = ( author => '', author_encoding => 0, encoding => 0, color => undef, start_cell => undef, start_col => undef, start_row => undef, visible => undef, width => $default_width, height => $default_height, x_offset => undef, x_scale => 1, y_offset => undef, y_scale => 1, ); # Overwrite the defaults with any user supplied values. Incorrect or # misspelled parameters are silently ignored. %params = (%params, @_); # Ensure that a width and height have been set. $params{width} = $default_width if not $params{width}; $params{height} = $default_height if not $params{height}; # Check that utf16 strings have an even number of bytes. if ($params{encoding}) { croak "Uneven number of bytes in comment string" if length($string) % 2; # Change from UTF-16BE to UTF-16LE $string = pack 'v*', unpack 'n*', $string; } if ($params{author_encoding}) { croak "Uneven number of bytes in author string" if length($params{author}) % 2; # Change from UTF-16BE to UTF-16LE $params{author} = pack 'v*', unpack 'n*', $params{author}; } # Handle utf8 strings in perl 5.8. if ($] >= 5.008) { require Encode; if (Encode::is_utf8($string)) { $string = Encode::encode("UTF-16LE", $string); $params{encoding} = 1; } if (Encode::is_utf8($params{author})) { $params{author} = Encode::encode("UTF-16LE", $params{author}); $params{author_encoding} = 1; } } # Limit the string to the max number of chars (not bytes). my $max_len = 32767; $max_len *= 2 if $params{encoding}; if (length($string) > $max_len) { $string = substr($string, 0, $max_len); } # Set the comment background colour. my $color = $params{color}; $color = &Spreadsheet::WriteExcel::Format::_get_color($color); $color = 0x50 if $color == 0x7FFF; # Default color. $params{color} = $color; # Convert a cell reference to a row and column. if (defined $params{start_cell}) { my ($row, $col) = $self->_substitute_cellref($params{start_cell}); $params{start_row} = $row; $params{start_col} = $col; } # Set the default start cell and offsets for the comment. These are # generally fixed in relation to the parent cell. However there are # some edge cases for cells at the, er, edges. # if (not defined $params{start_row}) { if ($row == 0 ) {$params{start_row} = 0 } elsif ($row == 65533) {$params{start_row} = 65529 } elsif ($row == 65534) {$params{start_row} = 65530 } elsif ($row == 65535) {$params{start_row} = 65531 } else {$params{start_row} = $row -1} } if (not defined $params{y_offset}) { if ($row == 0 ) {$params{y_offset} = 2 } elsif ($row == 65533) {$params{y_offset} = 4 } elsif ($row == 65534) {$params{y_offset} = 4 } elsif ($row == 65535) {$params{y_offset} = 2 } else {$params{y_offset} = 7 } } if (not defined $params{start_col}) { if ($col == 253 ) {$params{start_col} = 250 } elsif ($col == 254 ) {$params{start_col} = 251 } elsif ($col == 255 ) {$params{start_col} = 252 } else {$params{start_col} = $col +1} } if (not defined $params{x_offset}) { if ($col == 253 ) {$params{x_offset} = 49 } elsif ($col == 254 ) {$params{x_offset} = 49 } elsif ($col == 255 ) {$params{x_offset} = 49 } else {$params{x_offset} = 15 } } # Scale the size of the comment box if required. if ($params{x_scale}) { $params{width} = $params{width} * $params{x_scale}; } if ($params{y_scale}) { $params{height} = $params{height} * $params{y_scale}; } # Calculate the positions of comment object. my @vertices = $self->_position_object( $params{start_col}, $params{start_row}, $params{x_offset}, $params{y_offset}, $params{width}, $params{height} ); return( $row, $col, $string, $params{encoding}, $params{author}, $params{author_encoding}, $params{visible}, $params{color}, [@vertices] ); } # # DATA VALIDATION # ############################################################################### # # data_validation($row, $col, {...}) # # This method handles the interface to Excel data validation. # Somewhat ironically the this requires a lot of validation code since the # interface is flexible and covers a several types of data validation. # # We allow data validation to be called on one cell or a range of cells. The # hashref contains the validation parameters and must be the last param: # data_validation($row, $col, {...}) # data_validation($first_row, $first_col, $last_row, $last_col, {...}) # # Returns 0 : normal termination # -1 : insufficient number of arguments # -2 : row or column out of range # -3 : incorrect parameter. # sub data_validation { my $self = shift; # Check for a cell reference in A1 notation and substitute row and column if ($_[0] =~ /^\D/) { @_ = $self->_substitute_cellref(@_); } # Check for a valid number of args. if (@_ != 5 && @_ != 3) { return -1 } # The final hashref contains the validation parameters. my $param = pop; # Make the last row/col the same as the first if not defined. my ($row1, $col1, $row2, $col2) = @_; if (!defined $row2) { $row2 = $row1; $col2 = $col1; } # Check that row and col are valid without storing the values. return -2 if $self->_check_dimensions($row1, $col1, 1, 1); return -2 if $self->_check_dimensions($row2, $col2, 1, 1); # Check that the last parameter is a hash list. if (ref $param ne 'HASH') { carp "Last parameter '$param' in data_validation() must be a hash ref"; return -3; } # List of valid input parameters. my %valid_parameter = ( validate => 1, criteria => 1, value => 1, source => 1, minimum => 1, maximum => 1, ignore_blank => 1, dropdown => 1, show_input => 1, input_title => 1, input_message => 1, show_error => 1, error_title => 1, error_message => 1, error_type => 1, other_cells => 1, ); # Check for valid input parameters. for my $param_key (keys %$param) { if (not exists $valid_parameter{$param_key}) { carp "Unknown parameter '$param_key' in data_validation()"; return -3; } } # Map alternative parameter names 'source' or 'minimum' to 'value'. $param->{value} = $param->{source} if defined $param->{source}; $param->{value} = $param->{minimum} if defined $param->{minimum}; # 'validate' is a required parameter. if (not exists $param->{validate}) { carp "Parameter 'validate' is required in data_validation()"; return -3; } # List of valid validation types. my %valid_type = ( 'any' => 0, 'any value' => 0, 'whole number' => 1, 'whole' => 1, 'integer' => 1, 'decimal' => 2, 'list' => 3, 'date' => 4, 'time' => 5, 'text length' => 6, 'length' => 6, 'custom' => 7, ); # Check for valid validation types. if (not exists $valid_type{lc($param->{validate})}) { carp "Unknown validation type '$param->{validate}' for parameter " . "'validate' in data_validation()"; return -3; } else { $param->{validate} = $valid_type{lc($param->{validate})}; } # No action is required for validation type 'any'. # TODO: we should perhaps store 'any' for message only validations. return 0 if $param->{validate} == 0; # The list and custom validations don't have a criteria so we use a default # of 'between'. if ($param->{validate} == 3 || $param->{validate} == 7) { $param->{criteria} = 'between'; $param->{maximum} = undef; } # 'criteria' is a required parameter. if (not exists $param->{criteria}) { carp "Parameter 'criteria' is required in data_validation()"; return -3; } # List of valid criteria types. my %criteria_type = ( 'between' => 0, 'not between' => 1, 'equal to' => 2, '=' => 2, '==' => 2, 'not equal to' => 3, '!=' => 3, '<>' => 3, 'greater than' => 4, '>' => 4, 'less than' => 5, '<' => 5, 'greater than or equal to' => 6, '>=' => 6, 'less than or equal to' => 7, '<=' => 7, ); # Check for valid criteria types. if (not exists $criteria_type{lc($param->{criteria})}) { carp "Unknown criteria type '$param->{criteria}' for parameter " . "'criteria' in data_validation()"; return -3; } else { $param->{criteria} = $criteria_type{lc($param->{criteria})}; } # 'Between' and 'Not between' criteria require 2 values. if ($param->{criteria} == 0 || $param->{criteria} == 1) { if (not exists $param->{maximum}) { carp "Parameter 'maximum' is required in data_validation() " . "when using 'between' or 'not between' criteria"; return -3; } } else { $param->{maximum} = undef; } # List of valid error dialog types. my %error_type = ( 'stop' => 0, 'warning' => 1, 'information' => 2, ); # Check for valid error dialog types. if (not exists $param->{error_type}) { $param->{error_type} = 0; } elsif (not exists $error_type{lc($param->{error_type})}) { carp "Unknown criteria type '$param->{error_type}' for parameter " . "'error_type' in data_validation()"; return -3; } else { $param->{error_type} = $error_type{lc($param->{error_type})}; } # Convert date/times value if required. if ($param->{validate} == 4 || $param->{validate} == 5) { if ($param->{value} =~ /T/) { my $date_time = $self->convert_date_time($param->{value}); if (!defined $date_time) { carp "Invalid date/time value '$param->{value}' " . "in data_validation()"; return -3; } else { $param->{value} = $date_time; } } if (defined $param->{maximum} && $param->{maximum} =~ /T/) { my $date_time = $self->convert_date_time($param->{maximum}); if (!defined $date_time) { carp "Invalid date/time value '$param->{maximum}' " . "in data_validation()"; return -3; } else { $param->{maximum} = $date_time; } } } # Set some defaults if they haven't been defined by the user. $param->{ignore_blank} = 1 if !defined $param->{ignore_blank}; $param->{dropdown} = 1 if !defined $param->{dropdown}; $param->{show_input} = 1 if !defined $param->{show_input}; $param->{show_error} = 1 if !defined $param->{show_error}; # These are the cells to which the validation is applied. $param->{cells} = [[$row1, $col1, $row2, $col2]]; # A (for now) undocumented parameter to pass additional cell ranges. if (exists $param->{other_cells}) { push @{$param->{cells}}, @{$param->{other_cells}}; } # Store the validation information until we close the worksheet. push @{$self->{_validations}}, $param; } ############################################################################### # # _store_validation_count() # # Store the count of the DV records to follow. # # Note, this could be wrapped into _store_dv() but we may require separate # handling of the object id at a later stage. # sub _store_validation_count { my $self = shift; my $dv_count = @{$self->{_validations}}; my $obj_id = -1; return unless $dv_count; $self->_store_dval($obj_id , $dv_count); } ############################################################################### # # _store_validations() # # Store the data_validation records. # sub _store_validations { my $self = shift; return unless scalar @{$self->{_validations}}; for my $param (@{$self->{_validations}}) { $self->_store_dv( $param->{cells}, $param->{validate}, $param->{criteria}, $param->{value}, $param->{maximum}, $param->{input_title}, $param->{input_message}, $param->{error_title}, $param->{error_message}, $param->{error_type}, $param->{ignore_blank}, $param->{dropdown}, $param->{show_input}, $param->{show_error}, ); } } ############################################################################### # # _store_dval() # # Store the DV record which contains the number of and information common to # all DV structures. # sub _store_dval { my $self = shift; my $record = 0x01B2; # Record identifier my $length = 0x0012; # Bytes to follow my $obj_id = $_[0]; # Object ID number. my $dv_count = $_[1]; # Count of DV structs to follow. my $flags = 0x0004; # Option flags. my $x_coord = 0x00000000; # X coord of input box. my $y_coord = 0x00000000; # Y coord of input box. # Pack the record. my $header = pack('vv', $record, $length); my $data = pack('vVVVV', $flags, $x_coord, $y_coord, $obj_id, $dv_count); $self->_append($header, $data); } ############################################################################### # # _store_dv() # # Store the DV record that specifies the data validation criteria and options # for a range of cells.. # sub _store_dv { my $self = shift; my $record = 0x01BE; # Record identifier my $length = 0x0000; # Bytes to follow my $flags = 0x00000000; # DV option flags. my $cells = $_[0]; # Aref of cells to which DV applies. my $validation_type = $_[1]; # Type of data validation. my $criteria_type = $_[2]; # Validation criteria. my $formula_1 = $_[3]; # Value/Source/Minimum formula. my $formula_2 = $_[4]; # Maximum formula. my $input_title = $_[5]; # Title of input message. my $input_message = $_[6]; # Text of input message. my $error_title = $_[7]; # Title of error message. my $error_message = $_[8]; # Text of input message. my $error_type = $_[9]; # Error dialog type. my $ignore_blank = $_[10]; # Ignore blank cells. my $dropdown = $_[11]; # Display dropdown with list. my $input_box = $_[12]; # Display input box. my $error_box = $_[13]; # Display error box. my $ime_mode = 0; # IME input mode for far east fonts. my $str_lookup = 0; # See below. # Set the string lookup flag for 'list' validations with a string array. if ($validation_type == 3 && ref $formula_1 eq 'ARRAY') { $str_lookup = 1; } # The dropdown flag is stored as a negated value. my $no_dropdown = not $dropdown; # Set the required flags. $flags |= $validation_type; $flags |= $error_type << 4; $flags |= $str_lookup << 7; $flags |= $ignore_blank << 8; $flags |= $no_dropdown << 9; $flags |= $ime_mode << 10; $flags |= $input_box << 18; $flags |= $error_box << 19; $flags |= $criteria_type << 20; # Pack the validation formulas. $formula_1 = $self->_pack_dv_formula($formula_1); $formula_2 = $self->_pack_dv_formula($formula_2); # Pack the input and error dialog strings. $input_title = $self->_pack_dv_string($input_title, 32 ); $error_title = $self->_pack_dv_string($error_title, 32 ); $input_message = $self->_pack_dv_string($input_message, 255); $error_message = $self->_pack_dv_string($error_message, 255); # Pack the DV cell data. my $dv_count = scalar @$cells; my $dv_data = pack 'v', $dv_count; for my $range (@$cells) { $dv_data .= pack 'vvvv', $range->[0], $range->[2], $range->[1], $range->[3]; } # Pack the record. my $data = pack 'V', $flags; $data .= $input_title; $data .= $error_title; $data .= $input_message; $data .= $error_message; $data .= $formula_1; $data .= $formula_2; $data .= $dv_data; my $header = pack('vv', $record, length $data); $self->_append($header, $data); } ############################################################################### # # _pack_dv_string() # # Pack the strings used in the input and error dialog captions and messages. # Captions are limited to 32 characters. Messages are limited to 255 chars. # sub _pack_dv_string { my $self = shift; my $string = $_[0]; my $max_length = $_[1]; my $str_length = 0; my $encoding = 0; # The default empty string is "\0". if (!defined $string || $string eq '') { $string = "\0"; } # Excel limits DV captions to 32 chars and messages to 255. if (length $string > $max_length) { $string = substr($string, 0, $max_length); } $str_length = length $string; # Handle utf8 strings in perl 5.8. if ($] >= 5.008) { require Encode; if (Encode::is_utf8($string)) { $string = Encode::encode("UTF-16LE", $string); $encoding = 1; } } return pack('vC', $str_length, $encoding) . $string; } ############################################################################### # # _pack_dv_formula() # # Pack the formula used in the DV record. This is the same as an cell formula # with some additional header information. Note, DV formulas in Excel use # relative addressing (R1C1 and ptgXxxN) however we use the Formula.pm's # default absolute addressing (A1 and ptgXxx). # sub _pack_dv_formula { my $self = shift; my $formula = $_[0]; my $encoding = 0; my $length = 0; my $unused = 0x0000; my @tokens; # Return a default structure for unused formulas. if (!defined $formula || $formula eq '') { return pack('vv', 0, $unused); } # Pack a list array ref as a null separated string. if (ref $formula eq 'ARRAY') { $formula = join "\0", @$formula; $formula = qq("$formula"); } # Strip the = sign at the beginning of the formula string $formula =~ s(^=)(); # Parse the formula using the parser in Formula.pm my $parser = $self->{_parser}; # In order to raise formula errors from the point of view of the calling # program we use an eval block and re-raise the error from here. # eval { @tokens = $parser->parse_formula($formula) }; if ($@) { $@ =~ s/\n$//; # Strip the \n used in the Formula.pm die() croak $@; # Re-raise the error } else { # TODO test for non valid ptgs such as Sheet2!A1 } # Force 2d ranges to be a reference class. s/_range2d/_range2dR/ for @tokens; s/_name/_nameR/ for @tokens; # Parse the tokens into a formula string. $formula = $parser->parse_tokens(@tokens); return pack('vv', length $formula, $unused) . $formula; } 1; __END__ =encoding latin1 =head1 NAME Worksheet - A writer class for Excel Worksheets. =head1 SYNOPSIS See the documentation for Spreadsheet::WriteExcel =head1 DESCRIPTION This module is used in conjunction with Spreadsheet::WriteExcel. =head1 AUTHOR John McNamara jmcnamara@cpan.org =head1 COPYRIGHT Copyright MM-MMX, John McNamara. All Rights Reserved. This module is free software. It may be used, redistributed and/or modified under the same terms as Perl itself.