.\" Automatically generated by Pandoc 2.18 .\" .\" Define V font for inline verbatim, using C font in formats .\" that render this, and otherwise B font. .ie "\f[CB]x\f[]"x" \{\ . ftr V B . ftr VI BI . ftr VB B . ftr VBI BI .\} .el \{\ . ftr V CR . ftr VI CI . ftr VB CB . ftr VBI CBI .\} .TH "zint" "1" "May 2022" "Version 2.10.0.9" "" .hy .SH NAME .PP \f[V]zint\f[R] - Encode data as a barcode image .SH SYNOPSIS .PP \f[V]zint\f[R] [\f[V]-h\f[R] | \f[V]--help\f[R]] .PD 0 .P .PD \f[V]zint\f[R] [\f[I]options\f[R]] .SH DESCRIPTION .PP zint takes input data from the command line or a file to encode in a barcode which is then output to an image file. .PP The output image file (specified with \f[V]-o\f[R] or \f[V]--output\f[R]) may be in one of these formats: Windows Bitmap (\f[V]BMP\f[R]), Enhanced Metafile Format (\f[V]EMF\f[R]), Encapsulated PostScript (\f[V]EPS\f[R]), Graphics Interchange Format (\f[V]GIF\f[R]), ZSoft Paintbrush (\f[V]PCX\f[R]), Portable Network Format (\f[V]PNG\f[R]), Scalable Vector Graphic (\f[V]SVG\f[R]), or Tagged Image File Format (\f[V]TIF\f[R]). .SH OPTIONS .TP \f[V]-h\f[R], \f[V]--help\f[R] Print usage information summarizing command line options. .TP \f[V]-b TYPE\f[R], \f[V]--barcode=TYPE\f[R] Set the barcode symbology that will be used to encode the data. \f[I]TYPE\f[R] is the number or name of the barcode symbology. If not given, the symbology defaults to 20 (Code 128). To see what types are available, use the \f[V]-t\f[R] or \f[V]--types\f[R] option. Type names are case-insensitive, and non-alphanumerics are ignored. .TP \f[V]--addongap=INTEGER\f[R] For UPC/EAN symbologies, set the gap between the main data and the add-on. \f[I]INTEGER\f[R] is in integral multiples of the X-dimension. The maximum gap that can be set is 12. The minimum is 7, except for UPC-A, when the minimum is 9. .TP \f[V]--batch\f[R] Treat each line of an input file specified with \f[V]-i\f[R] or \f[V]--input\f[R] as a separate data set and produce a barcode image for each one. The barcode images are outputted by default to numbered filenames starting with \[lq]00001.png\[rq], \[lq]00002.png\[rq] etc., which can be changed by using the \f[V]-o\f[R] or \f[V]--output\f[R] option. .TP \f[V]--bg=COLOUR\f[R] Specify a background (paper) colour where \f[I]COLOUR\f[R] is in hex RRGGBB or RRGGGAA format. .TP \f[V]--binary\f[R] Treat input data as raw 8-bit binary data instead of the default UTF-8. Automatic code page translation to an ECI page is disabled, and no validation of the data\[cq]s character encoding takes place. .TP \f[V]--bind\f[R] Add horizontal boundary bars, aka bearer bars, to the symbol. The width of the boundary bars must be specified by the \f[V]--border\f[R] option. \f[V]--bind\f[R] can also be used to add row separator bars to symbols stacked with multiple \f[V]-d\f[R] or \f[V]--data\f[R] inputs, in which case the width of the separator bars must be specified with the \f[V]--separator\f[R] option. .TP \f[V]--bold\f[R] Use bold text for the Human Readable Text. .TP \f[V]--border=INTEGER\f[R] Set the width of boundary bars (\f[V]--bind\f[R]) or box borders (\f[V]--box\f[R]), where \f[I]INTEGER\f[R] is in integral multiples of the X-dimension. .TP \f[V]--box\f[R] Add a box around the symbol. The width of the borders must be specified by the \f[V]--border\f[R] option. .TP \f[V]--cmyk\f[R] Use the CMYK colour space when outputting to Encapsulated PostScript (EPS) or TIF files. .TP \f[V]--cols=INTEGER\f[R] Set the number of data columns in the symbol to \f[I]INTEGER\f[R]. Affects Codablock-F, PDF417, MicroPDF417, GS1 DataBar Expanded Stacked (DBAR_EXPSTK) and DotCode symbols. .TP \f[V]--compliantheight\f[R] Warn if the height specified by the \f[V]--height\f[R] option is not compliant with the barcode\[cq]s specification, or if \f[V]--height\f[R] is not given, default to the height specified by the specification (if any). .TP \f[V]-d\f[R], \f[V]--data=DATA\f[R] Specify the input \f[I]DATA\f[R] to encode. The \f[V]--esc\f[R] option may be used to enter non-printing characters using escape sequences. The \f[I]DATA\f[R] should be UTF-8, unless the \f[V]--binary\f[R] option is given, in which case it can be anything. .TP \f[V]--direct\f[R] Send output to stdout, which in most cases should be re-directed to a pipe or a file. .TP \f[V]--dmre\f[R] For Data Matrix symbols, allow Data Matrix Rectangular Extended (RMRE) sizes when considering automatic sizes. .TP \f[V]--dotsize=NUMBER\f[R] Set the radius of the dots in dotty mode (\f[V]--dotty\f[R]). \f[I]NUMBER\f[R] is in multiples of the X-dimension, and may be floating-point. The default is 0.8. .TP \f[V]--dotty\f[R] Use dots instead of squares for matrix symbols. DotCode is always in dotty mode. .TP \f[V]--dump\f[R] Dump a hexadecimal representation of the symbol\[cq]s encodation to stdout. .TP \f[V]-e\f[R], \f[V]--ecinos\f[R] Display the table of ECIs (Extended Channel Interpretations). .TP \f[V]--eci=INTEGER\f[R] Set the ECI code for the input data to \f[I]INTEGER\f[R]. See \f[V]-e\f[R] or \f[V]--ecinos\f[R] for a list of the ECIs available. .TP \f[V]--esc\f[R] Process escape characters in the input data. The escape sequences are: .RS .IP \[bu] 2 \f[V]\[rs]0\f[R] (0x00) \f[V]NUL\f[R] Null character .IP \[bu] 2 \f[V]\[rs]E\f[R] (0x04) \f[V]EOT\f[R] End of Transmission .IP \[bu] 2 \f[V]\[rs]a\f[R] (0x07) \f[V]BEL\f[R] Bell .IP \[bu] 2 \f[V]\[rs]b\f[R] (0x08) \f[V]BS\f[R] Backspace .IP \[bu] 2 \f[V]\[rs]t\f[R] (0x09) \f[V]HT\f[R] Horizontal Tab .IP \[bu] 2 \f[V]\[rs]n\f[R] (0x0A) \f[V]LF\f[R] Line Feed .IP \[bu] 2 \f[V]\[rs]v\f[R] (0x0B) \f[V]VT\f[R] Vertical Tab .IP \[bu] 2 \f[V]\[rs]f\f[R] (0x0C) \f[V]FF\f[R] Form Feed .IP \[bu] 2 \f[V]\[rs]r\f[R] (0x0D) \f[V]CR\f[R] Carriage Return .IP \[bu] 2 \f[V]\[rs]e\f[R] (0x1B) \f[V]ESC\f[R] Escape .IP \[bu] 2 \f[V]\[rs]G\f[R] (0x1D) \f[V]GS\f[R] Group Separator .IP \[bu] 2 \f[V]\[rs]R\f[R] (0x1E) \f[V]RS\f[R] Record Separator .IP \[bu] 2 \f[V]\[rs]\[rs]\f[R] (0x5C) \f[V]\[rs]\f[R] Backslash .IP \[bu] 2 \f[V]\[rs]xNN\f[R] (0xNN) Any 8-bit character where NN is hexadecimal .IP \[bu] 2 \f[V]\[rs]uNNNN\f[R] (U+NNNN) Any 16-bit Unicode BMP character where NNNN is hexadecimal .RE .TP \f[V]--fast\f[R] Use faster if less optimal encodation (currently affects Data Matrix only). .TP \f[V]--fg=COLOUR\f[R] Specify a foreground (ink) colour where \f[I]COLOUR\f[R] is in hex RRGGBB or RRGGGAA format. .TP \f[V]--filetype=TYPE\f[R] Set the output file type to \f[I]TYPE\f[R], which is one of \f[V]BMP\f[R], \f[V]EMF\f[R], \f[V]EPS\f[R], \f[V]GIF\f[R], \f[V]PCX\f[R], \f[V]PNG\f[R], \f[V]SVG\f[R], \f[V]TIF\f[R], \f[V]TXT\f[R]. .TP \f[V]--fullmultibyte\f[R] Use the multibyte modes of QR Code, Han Xin, and Grid Matrix for non-ASCII data. .TP \f[V]--gs1\f[R] Treat input as GS1 compatible data. Application Identifiers (AIs) should be placed in square brackets \f[V]\[dq][]\[dq]\f[R] (but see \f[V]--gs1parens\f[R]). .TP \f[V]--gs1nocheck\f[R] Do not check the validity of GS1 data. .TP \f[V]--gs1parens\f[R] Process parentheses \f[V]\[dq]()\[dq]\f[R] as GS1 AI delimiters, rather than square brackets \f[V]\[dq][]\[dq]\f[R]. The input data must not contain parentheses. .TP \f[V]--gssep\f[R] For Data Matrix in GS1 mode, use \f[V]GS\f[R] (0x1D) as the GS1 data separator instead of \f[V]FNC1\f[R]. .TP \f[V]--guarddescent=INTEGER\f[R] For UPC/EAN symbols, set the height of the guard bars\[cq] descent, where \f[I]INTEGER\f[R] is in integral multiples of the X-dimension. .TP \f[V]--height=NUMBER\f[R] Set the height of the symbol in multiples of the X-dimension. \f[I]NUMBER\f[R] may be floating-point. Increments of 0.5 are recommended for raster output (BMP, GIF, PCX, PNG and TIF). .TP \f[V]--heightperrow\f[R] Treat height as per-row. Affects Codablock-F, Code16K, Code 49, GS1 DataBar Expanded Stacked (DBAR_EXPSTK), MicroPDF417 and PDF417. .TP \f[V]-i\f[R], \f[V]--input=FILE\f[R] Read the input data from \f[I]FILE\f[R]. .TP \f[V]--init\f[R] Create a reader initialisation/programming symbol. .TP \f[V]--mask=INTEGER\f[R] Set the masking pattern to use for QR Code, Han Xin or DotCode to \f[I]INTEGER\f[R], overriding the automatic selection. .TP \f[V]--mirror\f[R] Use the batch data to determine the filename in batch mode (\f[V]--batch\f[R]). .TP \f[V]--mode=INTEGER\f[R] For MaxiCode and composite symbols, set the encoding mode to \f[I]INTEGER\f[R]. The meaning is symbol-specific. .TP \f[V]--nobackground\f[R] Remove the background colour (EMF, EPS, GIF, PNG, SVG and TIF only). .TP \f[V]--noquietzones\f[R] Disable any quiet zones for symbols that define them by default. .TP \f[V]--notext\f[R] Remove the Human Readable Text. .TP \f[V]-o\f[R], \f[V]--output=FILE\f[R] Send the output to \f[I]FILE\f[R]. When not in batch mode, the default is \[lq]out.png\[rq] (or \[lq]out.gif\[rq] if zint built without PNG support). When in batch mode (\f[V]--batch\f[R]), special characters can be used to format the output filenames: .RS .IP \[bu] 2 \f[V]\[ti]\f[R] Insert a number or 0 .IP \[bu] 2 \f[V]#\f[R] Insert a number or space .IP \[bu] 2 \f[V]\[at]\f[R] Insert a number or \f[V]*\f[R] .IP \[bu] 2 Any other Insert literally .RE .TP \f[V]--primary=STRING\f[R] For MaxiCode, set the content of the primary message. For Composite symbols, set the content of the linear symbol. .TP \f[V]--quietzones\f[R] Add compliant quiet zones for symbols that specify one. .TP \f[V]-r\f[R], \f[V]--reverse\f[R] Reverse the foreground and background colours (white on black). .TP \f[V]--rotate=INTEGER\f[R] Rotate the symbol by \f[I]INTEGER\f[R] degrees, where \f[I]INTEGER\f[R] can be 0, 90, 270 or 360. .TP \f[V]--rows=INTEGER\f[R] Set the number of rows for Codablock-F or PDF417 to \f[I]INTEGER\f[R]. It will also set the minimum number of rows for Code 16k or Code 49, and the maximum number of rows for GS1 DataBar Expanded Stacked (DBAR_EXPSTK). .TP \f[V]--scale=NUMBER\f[R] Set the X-dimension. \f[I]NUMBER\f[R] may be floating-point. .TP \f[V]--scmvv=INTEGER\f[R] For MaxiCode, prefix the Structured Carrier Message (SCM) with \f[V]\[dq][)>\[rs]R01\[rs]Gvv\[dq]\f[R], where vv is a 2-digit \f[I]INTEGER\f[R]. .TP \f[V]--secure=INTEGER\f[R] Set the error correction level (ECC) or check character options to \f[I]INTEGER\f[R]. The meaning is symbol-specific. .TP \f[V]--segN=ECI,DATA\f[R] Set the \f[I]ECI\f[R] & \f[I]DATA\f[R] content for segment N, where N is 1 to 9. \f[V]-d\f[R] or \f[V]--data\f[R] must still be given, and counts as segment 0, its ECI given by \f[V]--eci\f[R]. Segments must be consecutive. .TP \f[V]--separator=INTEGER\f[R] Set the height of row separator bars for stacked symbologies, where \f[I]INTEGER\f[R] is in integral multiples of the X-dimension. .TP \f[V]--small\f[R] Use small text for Human Readable Text. .TP \f[V]--square\f[R] For Data Matrix symbols, exclude rectangular sizes when considering automatic sizes. .TP \f[V]--structapp=I,C[,ID]\f[R] Set Structured Append info, where \f[V]I\f[R] is the 1-based index, \f[V]C\f[R] is the count of total symbols in the sequence, and \f[V]ID\f[R], which is optional, is the identifier that all symbols in the sequence share. .TP \f[V]-t\f[R], \f[V]--types\f[R] Display the table of barcode types (symbologies). The numbers or names can be used with \f[V]-b\f[R] or \f[V]--barcode\f[R]. .TP \f[V]--vers=INTEGER\f[R] Set the symbol version (size, check digits, other options) to \f[I]INTEGER\f[R]. The meaning is symbol-specific. For most matrix symbols, it specifies size. For a number of linear symbols, it specifies check character options. For a few other symbologies, it specifies other characteristics. .TP \f[V]-v\f[R], \f[V]--version\f[R] Display the zint version. .TP \f[V]--vwhitesp=INTEGER\f[R] Set the height of vertical whitespace above and below the barcode, where \f[I]INTEGER\f[R] is in integral multiples of the X-dimension. .TP \f[V]-w\f[R], \f[V]--whitesp=INTEGER\f[R] Set the width of horizontal whitespace either side of the barcode, where \f[I]INTEGER\f[R] is in integral multiples of the X-dimension. .TP \f[V]--werror\f[R] Convert all warnings into errors. .SH EXAMPLES .PP Create \[lq]out.png\[rq] (or \[lq]out.gif\[rq] if zint built without PNG support) in the current directory, as a Code 128 symbol. .IP .nf \f[C] zint -d \[aq]This Text\[aq] \f[R] .fi .PP Create \[lq]qr.svg\[rq] in the current directory, as a QR Code symbol. .IP .nf \f[C] zint -b QRCode -d \[aq]This Text\[aq] -o \[aq]qr.svg\[aq] \f[R] .fi .SH BUGS .PP Please send bug reports to https://sourceforge.net/p/zint/tickets/ .SH SEE ALSO .PP Full documention for \f[V]zint\f[R] (and the API \f[V]libzint\f[R] and the GUI \f[V]zint-qt\f[R]) is available from http://zint.org.uk/Manual.aspx, and at https://sourceforge.net/p/zint/docs/manual.txt. .SH STANDARDS .PP Zint is designed to be compliant with a number of international standards, including: .IP \[bu] 2 EN 798:1996, EN 12323:2005, ISO/IEC 15420:2009, ISO/IEC 15417:2007, .IP \[bu] 2 ISO/IEC 15438:2015, ISO/IEC 16022:2006, ISO/IEC 16023:2000, .IP \[bu] 2 ISO/IEC 16388:2007, ISO/IEC 18004:2015, ISO/IEC 20830:2021, .IP \[bu] 2 ISO/IEC 24723:2010, ISO/IEC 24724:2011, ISO/IEC 24728:2006, .IP \[bu] 2 ISO/IEC 24778:2008, ISO/IEC 16390:2007, ISO/IEC 21471:2019, .IP \[bu] 2 ANSI-HIBC 2.6-2016, ANSI/AIM BC12-1998, ANSI/AIM BC6-2000, .IP \[bu] 2 ANSI/AIM BC5-1995, AIM ISS-X-24, AIMD014 (v 1.63), USPS-B-3200, .IP \[bu] 2 USS Code One (1994), GS1 22.0 (2022), AIM ITS/04-023 (2022) .SH AUTHORS Robin Stuart .