zint/docs/manual.txt

5564 lines
221 KiB
Plaintext
Raw Normal View History

Zint Barcode Generator and Zint Barcode Studio User Manual
2023-12-18 23:28:14 +13:00
Version 2.13.0.9
January 2024
*******************************************************************************
* For reference the following is a text-only version of the Zint manual, *
* generated from "docs/manual.pmd" by pandoc. *
* A HTML version can be accessed at https://zint.org.uk/manual/ *
* however this text file is more likely to be up-to-date. *
2019-12-06 08:47:35 +13:00
*******************************************************************************
- 1. Introduction
- 1.1 Glossary
- 2. Installing Zint
- 2.1 Linux
- 2.2 BSD
- 2.3 Microsoft Windows
- 2.4 Apple macOS
- 2.5 Zint Tcl Backend
- 3. Using Zint Barcode Studio
- 3.1 Main Window and Data Tab
- 3.2 GS1 Composite Groupbox
- 3.3 Additional ECI/Data Segments Groupbox
- 3.4 Symbology-specific Groupbox
- 3.5 Symbology-specific Tab
- 3.6 Appearance Tab
- 3.7 Data Dialog
- 3.8 Sequence Dialog
- 3.9 Export Dialog
- 3.10 CLI Equivalent Dialog
- 4. Using the Command Line
- 4.1 Inputting Data
- 4.2 Directing Output
- 4.3 Selecting Barcode Type
- 4.4 Adjusting Height
- 4.5 Adjusting Whitespace
- 4.6 Adding Boundary Bars and Boxes
- 4.7 Using Colour
- 4.8 Rotating the Symbol
- 4.9 Adjusting Image Size (X-dimension)
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
- 4.9.1 Scaling by X-dimension and Resolution
- 4.9.2 Scaling Example
- 4.9.3 MaxiCode Raster Scaling
- 4.10 Human Readable Text (HRT) Options
- 4.11 Input Modes
- 4.11.1 Unicode, Data, and GS1 Modes
- 4.11.2 Input Modes and ECI
- 4.11.2.1 Input Modes and ECI Example 1
- 4.11.2.2 Input Modes and ECI Example 2
- 4.11.2.3 Input Modes and ECI Example 3
- 4.12 Batch Processing
- 4.13 Direct Output to stdout
- 4.14 Automatic Filenames
- 4.15 Working with Dots
- 4.16 Multiple Segments
- 4.17 Structured Append
- 4.18 Help Options
- 4.19 Other Options
- 5. Using the API
- 5.1 Creating and Deleting Symbols
- 5.2 Encoding and Saving to File
- 5.3 Encoding and Printing Functions in Depth
- 5.4 Buffering Symbols in Memory (raster)
- 5.5 Buffering Symbols in Memory (vector)
- 5.6 Buffering Symbols in Memory (memfile)
- 5.7 Setting Options
- 5.8 Handling Errors
- 5.9 Specifying a Symbology
- 5.10 Adjusting Output Options
- 5.11 Setting the Input Mode
- 5.12 Multiple Segments
- 5.13 Scaling Helpers
- 5.14 Verifying Symbology Availability
- 5.15 Checking Symbology Capabilities
- 5.16 Zint Version
- 6. Types of Symbology
- 6.1 One-Dimensional Symbols
- 6.1.1 Code 11
- 6.1.2 Code 2 of 5
- 6.1.2.1 Standard Code 2 of 5
- 6.1.2.2 IATA Code 2 of 5
- 6.1.2.3 Industrial Code 2 of 5
- 6.1.2.4 Interleaved Code 2 of 5 (ISO 16390)
- 6.1.2.5 Code 2 of 5 Data Logic
- 6.1.2.6 ITF-14
- 6.1.2.7 Deutsche Post Leitcode
- 6.1.2.8 Deutsche Post Identcode
- 6.1.3 UPC (Universal Product Code) (ISO 15420)
- 6.1.3.1 UPC Version A
- 6.1.3.2 UPC Version E
- 6.1.4 EAN (European Article Number) (ISO 15420)
- 6.1.4.1 EAN-2, EAN-5, EAN-8 and EAN-13
- 6.1.4.2 SBN, ISBN and ISBN-13
- 6.1.5 Plessey
- 6.1.5.1 UK Plessey
- 6.1.5.2 MSI Plessey
- 6.1.6 Telepen
- 6.1.6.1 Telepen Alpha
- 6.1.6.2 Telepen Numeric
- 6.1.7 Code 39
- 6.1.7.1 Standard Code 39 (ISO 16388)
- 6.1.7.2 Extended Code 39
- 6.1.7.3 Code 93
- 6.1.7.4 PZN (Pharmazentralnummer)
- 6.1.7.5 LOGMARS
- 6.1.7.6 Code 32
- 6.1.7.7 HIBC Code 39
- 6.1.7.8 Vehicle Identification Number (VIN)
- 6.1.8 Codabar (EN 798)
- 6.1.9 Pharmacode
- 6.1.10 Code 128
- 6.1.10.1 Standard Code 128 (ISO 15417)
- 6.1.10.2 Code 128 Suppress Code Set C (Code Sets A and B only)
- 6.1.10.3 GS1-128
- 6.1.10.4 EAN-14
- 6.1.10.5 NVE-18 (SSCC-18)
- 6.1.10.6 HIBC Code 128
- 6.1.10.7 DPD Code
- 6.1.10.8 UPU S10
- 6.1.11 GS1 DataBar (ISO 24724)
- 6.1.11.1 GS1 DataBar Omnidirectional and GS1 DataBar Truncated
- 6.1.11.2 GS1 DataBar Limited
- 6.1.11.3 GS1 DataBar Expanded
- 6.1.12 Korea Post Barcode
- 6.1.13 Channel Code
- 6.1.14 BC412 (SEMI T1-95)
- 6.2 Stacked Symbologies
- 6.2.1 Basic Symbol Stacking
- 6.2.2 Codablock-F
- 6.2.3 Code 16K (EN 12323)
- 6.2.4 PDF417 (ISO 15438)
- 6.2.5 Compact PDF417 (ISO 15438)
- 6.2.6 MicroPDF417 (ISO 24728)
- 6.2.7 GS1 DataBar Stacked (ISO 24724)
- 6.2.7.1 GS1 DataBar Stacked
- 6.2.7.2 GS1 DataBar Stacked Omnidirectional
- 6.2.7.3 GS1 DataBar Expanded Stacked
- 6.2.8 Code 49
- 6.3 GS1 Composite Symbols (ISO 24723)
- 6.3.1 CC-A
- 6.3.2 CC-B
- 6.3.3 CC-C
- 6.4 Two-Track Symbols
- 6.4.1 Two-Track Pharmacode
- 6.4.2 POSTNET
- 6.4.3 PLANET
- 6.4.4 Brazilian CEPNet
- 6.5 4-State Postal Codes
- 6.5.1 Australia Post 4-State Symbols
- 6.5.1.1 Customer Barcodes
- 6.5.1.2 Reply Paid Barcode
- 6.5.1.3 Routing Barcode
- 6.5.1.4 Redirect Barcode
- 6.5.2 Dutch Post KIX Code
- 6.5.3 Royal Mail 4-State Customer Code (RM4SCC)
- 6.5.4 Royal Mail 4-State Mailmark
- 6.5.5 USPS Intelligent Mail
- 6.5.6 Japanese Postal Code
- 6.5.7 DAFT Code
- 6.6 Matrix Symbols
- 6.6.1 Data Matrix (ISO 16022)
- 6.6.2 Royal Mail 2D Mailmark (CMDM) (Data Matrix)
- 6.6.3 QR Code (ISO 18004)
- 6.6.4 Micro QR Code (ISO 18004)
- 6.6.5 Rectangular Micro QR Code (rMQR) (ISO 23941)
- 6.6.6 UPNQR (Univerzalnega Plačilnega Naloga QR)
- 6.6.7 MaxiCode (ISO 16023)
- 6.6.8 Aztec Code (ISO 24778)
- 6.6.9 Aztec Runes (ISO 24778)
- 6.6.10 Code One
- 6.6.11 Grid Matrix
- 6.6.12 DotCode
- 6.6.13 Han Xin Code (ISO 20830)
- 6.6.14 Ultracode
- 6.7 Other Barcode-Like Markings
- 6.7.1 Facing Identification Mark (FIM)
- 6.7.2 Flattermarken
- 7. Legal and Version Information
- 7.1 License
- 7.2 Patent Issues
- 7.3 Version Information
- 7.4 Sources of Information
- 7.5 Standards Compliance
- 7.5.1 Symbology Standards
- 7.5.2 General Standards
- Annex A. Character Encoding
- A.1 ASCII Standard
- A.2 Latin Alphabet No. 1 (ISO/IEC 8859-1)
- Annex B. Qt Backend QZint
- Annex C. Tcl Backend Binding
- Annex D. Man Page ZINT(1)
- NAME
- SYNOPSIS
- DESCRIPTION
- OPTIONS
- EXIT STATUS
- EXAMPLES
- BUGS
- SEE ALSO
- CONFORMING TO
- COPYRIGHT
- AUTHOR
2019-12-06 08:47:35 +13:00
1. Introduction
2019-12-06 08:47:35 +13:00
The Zint project aims to provide a complete cross-platform open source barcode
generating solution. The package currently consists of a Qt-based GUI, a CLI
2019-12-06 08:47:35 +13:00
command line executable and a library with an API to allow developers access to
the capabilities of Zint. It is hoped that Zint provides a solution which is
flexible enough for professional users while at the same time takes care of as
much of the processing as possible to allow easy translation from input data to
barcode image.
The library which forms the main component of the Zint project is currently able
to encode data in over 50 barcode symbologies (types of barcode), for each of
which it is possible to translate that data from either UTF-8 (Unicode) or a raw
8-bit data stream. The image can be rendered as a
- Windows Bitmap (BMP),
- Enhanced Metafile Format (EMF),
- Encapsulated PostScript (EPS),
- Graphics Interchange Format (GIF),
- ZSoft Paintbrush (PCX) image,
- Portable Network Graphic (PNG) image,
- Tagged Image File Format (TIF), or a
- Scalable Vector Graphic (SVG).
Many options are available for setting the characteristics of the output image
including the size and colour of the image, the amount of error correction used
in the symbol and the orientation of the image.
2019-12-06 08:47:35 +13:00
1.1 Glossary
2019-12-06 08:47:35 +13:00
Some of the words and phrases used in this document are specific to barcoding,
and so a brief explanation is given to help understanding:
symbol
A symbol is an image which encodes data according to one of the standards.
This encompasses barcodes (linear symbols) as well as any of the other
methods of representing data used in this program.
symbology
A method of encoding data to create a certain type of symbol.
linear
A linear or one-dimensional symbol is one which consists of bars and spaces,
and is what most people associate with the term barcode. Examples include
Code 128.
stacked
A stacked symbol consists of multiple linear symbols placed one above
another and which together hold the message, usually alongside some error
correction data. Examples include PDF417.
matrix
A matrix symbol is one based on a (usually square) grid of elements called
modules. Examples include Data Matrix, but MaxiCode and DotCode are also
considered matrix symbologies.
composite
A composite symbology is one which is made up of elements which are both
linear and stacked. Those currently supported are made up of a linear
primary message above which is printed a stacked component based on the
PDF417 symbology. These symbols also have a separator which separates the
linear and the stacked components. The stacked component is most often
referred to as the 2D (two-dimensional) component.
X-dimension
The X-dimension of a symbol is the size (usually the width) of the smallest
element. For a linear symbology this is the width of the smallest bar. For
matrix symbologies it is the width of the smallest module (usually a
square). Barcode widths and heights are expressed in X-dimensions. Most
linear symbologies can have their height varied whereas most matrix
symbologies have a fixed width-to-height ratio where the height is
determined by the width.
GS1 data
This is a structured way of representing information which consists of
chunks of data, each of which starts with an Application Identifier (AI).
The AI identifies what type of information is being encoded.
Reader Initialisation (Programming)
Some symbologies allow a special character to be included which can be
detected by the scanning equipment as signifying that the data is used to
program or change settings in that equipment. This data is usually not
passed on to the software which handles normal input data. This feature
should only be used if you are familiar with the programming codes relevant
to your scanner.
ECI
The Extended Channel Interpretations (ECI) mechanism allows for
multi-language data to be encoded in symbols which would usually support
only Latin-1 (ISO/IEC 8859-1 plus ASCII) characters. This can be useful, for
example, if you need to encode Cyrillic characters, but should be used with
caution as not all scanners support this method.
Two other concepts that are important are raster and vector.
raster
A low level bitmap representation of an image. BMP, GIF, PCX, PNG and TIF
are raster file formats.
vector
A high level command- or data-based representation of an image. EMF, EPS and
SVG are vector file formats. They require renderers to turn them into
bitmaps.
2019-12-06 08:47:35 +13:00
2. Installing Zint
2.1 Linux
2019-12-06 08:47:35 +13:00
The easiest way to configure compilation is to take advantage of the CMake
utilities. You will need to install CMake and libpng-dev first. For instance on
apt systems:
sudo apt install git cmake build-essential libpng-dev
If you want to take advantage of Zint Barcode Studio you will also need to have
Qt and its component "Desktop gcc 64-bit" installed, as well as mesa. For
details see "README.linux" in the project root directory.
2019-12-06 08:47:35 +13:00
Once you have fulfilled these requirements unzip the source code tarball or
clone the latest source
git clone https://git.code.sf.net/p/zint/code zint
and follow these steps in the top directory:
2019-12-06 08:47:35 +13:00
mkdir build
cd build
cmake ..
make
sudo make install
2019-12-06 08:47:35 +13:00
The CLI command line program can be accessed by typing
2019-12-06 08:47:35 +13:00
zint [options]
2019-12-06 08:47:35 +13:00
The GUI can be accessed by typing
2019-12-06 08:47:35 +13:00
zint-qt
2019-12-06 08:47:35 +13:00
To test that the installation has been successful a shell script is included in
the "frontend" sub-directory. To run the test type
2019-12-06 08:47:35 +13:00
./test.sh
2019-12-06 08:47:35 +13:00
This should create numerous files in the sub-directory "frontend/test_sh_out"
showing the many modes of operation which are available from Zint.
2019-12-06 08:47:35 +13:00
2.2 BSD
The latest Zint CLI, libzint library and GUI can be installed from the zint
package on FreeBSD:
su
pkg install zint
exit
and on OpenBSD (where the GUI is in a separate zint-gui package):
su
pkg_add zint zint-gui
exit
To build from source (including for NetBSD) see "README.bsd" in the project root
directory.
2.3 Microsoft Windows
For Microsoft Windows, Zint is distributed as a binary executable. Simply
download the ZIP file, then right-click on the ZIP file and "Extract All". A new
folder will be created within which are two binary files:
- qtZint.exe - Zint Barcode Studio
- zint.exe - Command Line Interface
For fresh releases you will get a warning message from Microsoft Defender
SmartScreen that this is an unrecognised app. This happens because Zint is a
free and open-source software project with no advertising and hence no income,
meaning we are not able to afford the $664 per year to have the application
digitally signed by Microsoft.
2019-12-06 08:47:35 +13:00
To build Zint on Windows from source, see "win32/README".
2.4 Apple macOS
The latest Zint CLI and libzint can be installed using Homebrew.[1] To install
Homebrew input the following line into the macOS terminal
/bin/bash -c "$(curl -fsSL \
https://raw.githubusercontent.com/Homebrew/install/HEAD/install.sh)"
2022-12-27 04:40:46 +13:00
Once Homebrew is installed use the following command to install the CLI and
library
brew install zint
2019-12-06 08:47:35 +13:00
2022-12-27 04:40:46 +13:00
To build from source (and install the GUI) see "README.macos" in the project
root directory.
2.5 Zint Tcl Backend
The Tcl backend in the "backend_tcl" sub-directory may be built using the
provided TEA (Tcl Extension Architecture) build on Linux, Windows, macOS and
Android. For Windows, an MSVC6 makefile is also available. See Annex C. Tcl
Backend Binding for further details.
2019-12-06 08:47:35 +13:00
3. Using Zint Barcode Studio
2019-12-06 08:47:35 +13:00
Zint Barcode Studio is the graphical user interface for Zint. If you are
starting from a command line interface you can start the GUI by typing
zint-qt
or on Windows
qtZint.exe
See the note in section 2.3 Microsoft Windows about Microsoft Defender
SmartScreen.
Below is a brief guide to Zint Barcode Studio.
3.1 Main Window and Data Tab
[Zint Barcode Studio on startup - main window with Data tab]
This is the main window of Zint Barcode Studio. The top of the window shows a
preview of the barcode that the current settings would create. These settings
can be changed using the controls below. The text box in the "Data to Encode"
groupbox on this first Data tab allows you to enter the data to be encoded. When
you are happy with your settings you can use the "Save..." button to save the
resulting image to a file.
The "Symbology" drop-down box gives access to all of the symbologies supported
by Zint shown in alphabetical order. The text box to its right can filter the
drop-down to only show matching symbologies. For instance typing "mail" will
only show barcodes in the drop-down whose names contain the word "mail". Each
word entered will match. So typing "mail post" will show barcodes whose names
contain "mail" or "post" (or both).
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
The ellipsis button "..." to the right of the data text box invokes the Data
Dialog - see 3.7 Data Dialog for details. The delete button [delete] next to it
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
will clear the data text box and the ECI (Extended Channel Interpretations)
drop-down if set.
To set the barcode as a Programming Initialisation symbol click the
"Reader Init" checkbox. The "1234.." button to its right invokes the Sequence
Dialog - see 3.8 Sequence Dialog. The zap button [zap] will clear all data and
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
reset all settings for the barcode to defaults.
The "BMP" and "SVG" buttons at the bottom will copy the image to the clipboard
in BMP format and SVG format respectively. Further copy-to-clipboard formats are
available by clicking the "Menu" button, along with "CLI Equivalent...",
"Save As...", "Factory Reset...", "Help", "About..." and "Quit" options. Most of
the options are also available in a context menu by right-clicking the preview.
[Zint Barcode Studio main menu (left) and context menu (right)]
3.2 GS1 Composite Groupbox
[Zint Barcode Studio encoding GS1 Composite data]
In the middle of the Data tab is an area for creating composite symbologies
which appears when the currently selected symbology is supported by the GS1
Composite symbology standard. GS1 data can then be entered with square brackets
used to separate Application Identifier (AI) information from data as shown
here. For details, see 6.3 GS1 Composite Symbols (ISO 24723).
3.3 Additional ECI/Data Segments Groupbox
[Zint Barcode Studio encoding multiple segments]
For symbologies that support ECIs (Extended Channel Interpretations) the middle
of the Data tab is an area for entering additional data segments with their own
ECIs. Up to 4 segments (including the main "Data to Encode" as segment 0) may be
specified. See 4.16 Multiple Segments for details.
3.4 Symbology-specific Groupbox
[Zint Barcode Studio showing Code 2 of 5 Interleaved settings]
Many symbologies have extra options to change the content, format and appearance
of the symbol generated. For those with few additional options (and no support
for GS1 data or ECIs), the middle of the Data tab is an area for setting those
options.
Here is shown the check digit options for an Interleaved Code 2 of 5 symbol (see
6.1.2.4 Interleaved Code 2 of 5 (ISO 16390)).
Symbologies with more than a few options (or support for GS1 data or ECIs) have
a second Symbology-specific tab, shown next.
3.5 Symbology-specific Tab
[Zint Barcode Studio showing Aztec Code options]
A second tab appears for those symbologies with more than a few extra options.
Here is shown the options available for an Aztec Code symbol.
You can adjust its size or error correction level (see 6.6.8 Aztec Code (ISO
24778)), select how its data is to be treated (see 4.11 Input Modes), and set it
as part of a Structured Append sequence of symbols (see 4.17 Structured Append).
3.6 Appearance Tab
[Zint Barcode Studio showing Appearance tab options]
The Appearance tab can be used to adjust the dimensions and other properties of
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
the symbol.
The "Height" value affects the height of symbologies which do not have a fixed
width-to-height ratio, i.e. those other than matrix symbologies. For such
symbologies the "Automatic Height" checkbox will be enabled - uncheck this to
manually adjust the height. The "Compliant Height" checkbox applies to
symbologies that define a standard height - see 4.4 Adjusting Height.
Boundary bars can be added with the "Border Type" drop-down and their size
adjusted with "Border Width", and whitespace can be adjusted both horizontally
(first spinbox) and vertically (second spinbox), and also through the
"Quiet Zones" checkbox if standard quiet zones are defined for the symbology.
The size of the saved image can be specified with "Printing Scale", and also by
clicking the [scaling] icon to invoke the Set Printing Scale Dialog - see 4.9
Adjusting Image Size (X-dimension) for further details.
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
[Adjusting the Print Size]
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
The foreground and background colours can be set either using the text boxes
which accept "RRGGBBAA" hexadecimal values and "C,M,Y,K" decimal percentage
values, or by clicking the foreground eye [eye] and background eye [eye] buttons
which invoke a colour picker.
[The colour picker tool]
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
(Note that to change the colours visually, the luminence slider, the long narrow
column on the right, must be adjusted.) The color picker only deals in RGB(A),
and will overwrite any CMYK values with RGB(A) values once "OK" is selected.
2022-12-13 10:06:08 +13:00
Back in the Appearance tab, the colours can be reset to black-on-white using the
"Reset" button, and exchanged one for the other using the swap [swap] button
next to it.
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
3.7 Data Dialog
[Entering longer text input]
2019-12-06 08:47:35 +13:00
Clicking on the ellipsis "..." button next to the "Data to Encode" text box in
the Data tab opens a larger window which can be used to enter longer strings of
text. You can also use this window to load data from a file.
2019-12-06 08:47:35 +13:00
The dialog is also available for additional ECI/Data segments by clicking the
ellipsis button to the right of their data text boxes.
2019-12-06 08:47:35 +13:00
Note that if your data contains line feeds (LF) then the data will be split into
separate lines in the dialog box. On saving the data back to the main text box
any separate lines in the data will be escaped as '\n' and the "Parse Escapes"
checkbox will be set. This only affects line feeds, not carriage returns (CR) or
CR+LF pairs, and behaves the same on both Windows and Unix. (For details on
escape sequences, see 4.1 Inputting Data.)
2019-12-06 08:47:35 +13:00
3.8 Sequence Dialog
2019-12-06 08:47:35 +13:00
[Creating a sequence of barcode symbols]
Clicking on the sequence button (labelled "1234..") in the Data tab opens the
Sequence Dialog. This allows you to create multiple barcode images by entering a
sequence of data inputs in the right hand panel. Sequences can also be
automatically generated by entering parameters on the left hand side or by
importing the data from a file. Zint will generate a separate barcode image for
each line of text in the right hand panel. The format field determines the
format of the automatically generated sequence where characters have the
meanings as given below:
Character Effect
--------------------- --------------------------
$ Insert leading zeroes
# Insert leading spaces
* Insert leading asterisks
Any other character Interpreted literally
: Table : Sequence Format Characters:
Once youre happy with the Sequence Data, click the "Export..." button to bring
up the Export Dialog, discussed next.
3.9 Export Dialog
[Setting filenames for an exported sequence of barcode symbols]
The Export Dialog invoked by pressing the "Export..." button in the Sequence
Dialog sets the parameters for exporting the sequence of barcode images. Here
you can set the output directory, the format of the output filenames and what
their image type will be. Note that the symbology, colour and other formatting
information are taken from the main window.
3.10 CLI Equivalent Dialog
[CLI Equivalent Dialog]
The CLI Equivalent Dialog can be invoked from the main menu or the context menu
and displays the CLI command that will reproduce the barcode as currently
configured in the GUI. Press the "Copy" button to copy the command to the
clipboard, which can then be pasted into the command line.
2019-12-06 08:47:35 +13:00
4. Using the Command Line
This section describes how to encode data using the command line frontend (CLI)
program. The examples given are for the Unix platform, but the same options are
available for Windows - just remember to include the executable file extension
if ".EXE" is not in your PATHEXT environment variable, i.e.:
2019-12-06 08:47:35 +13:00
zint.exe -d "This Text"
2019-12-06 08:47:35 +13:00
For compatibility with Windows the examples use double quotes to delimit data,
though on Unix single quotes are generally preferable as they stop the shell
from processing any characters such as backslash or dollar. A single quote
itself is dealt with by terminating the single-quoted text, backslashing the
single quote, and then continuing:
zint -d 'Text containing a single quote '\'' in the middle'
2019-12-06 08:47:35 +13:00
Some examples use backslash (\) to continue commands onto the next line. For
Windows, use caret (^) instead.
Certain options that take values have short names as well as long ones, namely
-b (--barcode), -d (--data), -i (--input), -o (--output) and -w (--whitesp). For
these a space should be used to separate the short name from its value, to avoid
ambiguity. For long names a space or an equals sign may be used. For instance:
zint -d "This Text"
zint --data="This Text"
zint --data "This Text"
The examples use a space separator for short option names, and an equals sign
for long option names.
4.1 Inputting Data
The data to encode can be entered at the command line using the -d or --data
option, for example
2019-12-06 08:47:35 +13:00
zint -d "This Text"
2019-12-06 08:47:35 +13:00
This will encode the text "This Text". Zint will use the default symbology, Code
128, and output to the default file "out.png" in the current directory.
Alternatively, if libpng was not present when Zint was built, the default output
file will be "out.gif".
2019-12-06 08:47:35 +13:00
The data input to the Zint CLI is assumed to be encoded in UTF-8 (Unicode)
format (Zint will correctly handle UTF-8 data on Windows). If you are encoding
characters beyond the 7-bit ASCII set using a scheme other than UTF-8 then you
will need to set the appropriate input options as shown in 4.11 Input Modes
below.
2019-12-06 08:47:35 +13:00
Non-printing characters can be entered on the command line using backslash (\)
as an escape character in combination with the --esc switch. Permissible
sequences are shown in the table below.
----------------------------------------------------------------------------
Escape ASCII Name Interpretation
Sequence Equivalent
----------- ------------ ------- -------------------------------------------
\0 0x00 NUL Null character
\E 0x04 EOT End of Transmission
\a 0x07 BEL Bell
\b 0x08 BS Backspace
\t 0x09 HT Horizontal Tab
\n 0x0A LF Line Feed
\v 0x0B VT Vertical Tab
\f 0x0C FF Form Feed
\r 0x0D CR Carriage Return
\e 0x1B ESC Escape
\G 0x1D GS Group Separator
\R 0x1E RS Record Separator
\\ 0x5C \ Backslash
\dNNN NNN Any 8-bit character where NNN is decimal
(000-255)
\oNNN 0oNNN Any 8-bit character where NNN is octal
(000-377)
\xNN 0xNN Any 8-bit character where NN is hexadecimal
(00-FF)
\uNNNN Any 16-bit Unicode BMP[2] character where
NNNN is hexadecimal (0000-FFFF)
\UNNNNNN Any 21-bit Unicode character where NNNNNN
is hexadecimal (000000-10FFFF)
----------------------------------------------------------------------------
: Table : Escape Sequences:
2019-12-06 08:47:35 +13:00
(Special escape sequences are available for Code 128 only to manually switch
Code Sets - see 6.1.10.1 Standard Code 128 (ISO 15417) for details.)
Input data can be read directly from file using the -i or --input switch as
shown below. The input file is assumed to be UTF-8 formatted unless an
alternative mode is selected. This command replaces the use of the -d switch.
2019-12-06 08:47:35 +13:00
zint -i somefile.txt
2019-12-06 08:47:35 +13:00
To read from stdin specify a single hyphen "-" as the input file.
Note that except when batch processing (see 4.12 Batch Processing below), the
file (or stdin) should not end with a newline (LF on Unix, CR+LF on Windows)
unless you want the newline to be encoded in the symbol.
2019-12-06 08:47:35 +13:00
4.2 Directing Output
Output can be directed to a file other than the default using the -o or --output
switch. For example:
2019-12-06 08:47:35 +13:00
zint -o here.png -d "This Text"
2019-12-06 08:47:35 +13:00
This draws a Code 128 barcode in the file "here.png". If an Encapsulated
PostScript file is needed simply append the filename with ".eps", and so on for
the other supported file types:
2019-12-06 08:47:35 +13:00
zint -o there.eps -d "This Text"
2019-12-06 08:47:35 +13:00
The currently supported output file formats are shown in the following table.
Extension File format
----------- ------------------------------------
bmp Windows Bitmap
emf Enhanced Metafile Format
eps Encapsulated PostScript
gif Graphics Interchange Format
pcx ZSoft Paintbrush image
png Portable Network Graphic
svg Scalable Vector Graphic
tif Tagged Image File Format
txt Text file (see 4.19 Other Options)
: Table : Output File Formats:
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
The filename can contain directories and sub-directories also, which will be
created if they dont already exist:
zint -o "dir/subdir/filename.eps" -d "This Text"
Note that on Windows, filenames are assumed to be UTF-8 encoded.
4.3 Selecting Barcode Type
Selecting which type of barcode you wish to produce (i.e. which symbology to
use) can be done at the command line using the -b or --barcode switch followed
by the appropriate integer value or name in the following table. For example to
create a Data Matrix symbol you could use:
2019-12-06 08:47:35 +13:00
zint -b 71 -o datamatrix.png -d "Data to encode"
or
zint -b DATAMATRIX -o datamatrix.png -d "Data to encode"
2019-12-06 08:47:35 +13:00
Names are treated case-insensitively by the CLI, and the BARCODE_ prefix and any
underscores are optional.
------------------------------------------------------------------------------
Numeric Name[3] Barcode Name
Value
--------- ------------------------- ------------------------------------------
1 BARCODE_CODE11 Code 11
2* BARCODE_C25STANDARD Standard Code 2 of 5
3 BARCODE_C25INTER Interleaved 2 of 5
4 BARCODE_C25IATA Code 2 of 5 IATA
6 BARCODE_C25LOGIC Code 2 of 5 Data Logic
7 BARCODE_C25IND Code 2 of 5 Industrial
8 BARCODE_CODE39 Code 3 of 9 (Code 39)
9 BARCODE_EXCODE39 Extended Code 3 of 9 (Code 39+)
13 BARCODE_EANX EAN (EAN-2, EAN-5, EAN-8 and EAN-13)
14 BARCODE_EANX_CHK EAN + Check Digit
16* BARCODE_GS1_128 GS1-128 (UCC.EAN-128)
18 BARCODE_CODABAR Codabar
20 BARCODE_CODE128 Code 128 (automatic Code Set switching)
2022-08-06 10:51:24 +12:00
21 BARCODE_DPLEIT Deutsche Post Leitcode
2022-08-06 10:51:24 +12:00
22 BARCODE_DPIDENT Deutsche Post Identcode
23 BARCODE_CODE16K Code 16K
24 BARCODE_CODE49 Code 49
25 BARCODE_CODE93 Code 93
28 BARCODE_FLAT Flattermarken
29* BARCODE_DBAR_OMN GS1 DataBar Omnidirectional (including GS1
DataBar Truncated)
30* BARCODE_DBAR_LTD GS1 DataBar Limited
31* BARCODE_DBAR_EXP GS1 DataBar Expanded
32 BARCODE_TELEPEN Telepen Alpha
34 BARCODE_UPCA UPC-A
35 BARCODE_UPCA_CHK UPC-A + Check Digit
37 BARCODE_UPCE UPC-E
38 BARCODE_UPCE_CHK UPC-E + Check Digit
40 BARCODE_POSTNET POSTNET
47 BARCODE_MSI_PLESSEY MSI Plessey
49 BARCODE_FIM FIM
50 BARCODE_LOGMARS LOGMARS
51 BARCODE_PHARMA Pharmacode One-Track
52 BARCODE_PZN PZN
53 BARCODE_PHARMA_TWO Pharmacode Two-Track
54 BARCODE_CEPNET Brazilian CEPNet
55 BARCODE_PDF417 PDF417
56* BARCODE_PDF417COMP Compact PDF417 (Truncated PDF417)
57 BARCODE_MAXICODE MaxiCode
58 BARCODE_QRCODE QR Code
60 BARCODE_CODE128AB Code 128 (Suppress Code Set C)
63 BARCODE_AUSPOST Australia Post Standard Customer
66 BARCODE_AUSREPLY Australia Post Reply Paid
67 BARCODE_AUSROUTE Australia Post Routing
68 BARCODE_AUSDIRECT Australia Post Redirection
69 BARCODE_ISBNX ISBN (EAN-13 with verification stage)
70 BARCODE_RM4SCC Royal Mail 4-State Customer Code (RM4SCC)
71 BARCODE_DATAMATRIX Data Matrix (ECC200)
72 BARCODE_EAN14 EAN-14
73 BARCODE_VIN Vehicle Identification Number
74 BARCODE_CODABLOCKF Codablock-F
75 BARCODE_NVE18 NVE-18 (SSCC-18)
76 BARCODE_JAPANPOST Japanese Postal Code
77 BARCODE_KOREAPOST Korea Post
79* BARCODE_DBAR_STK GS1 DataBar Stacked
80* BARCODE_DBAR_OMNSTK GS1 DataBar Stacked Omnidirectional
81* BARCODE_DBAR_EXPSTK GS1 DataBar Expanded Stacked
82 BARCODE_PLANET PLANET
84 BARCODE_MICROPDF417 MicroPDF417
85* BARCODE_USPS_IMAIL USPS Intelligent Mail (OneCode)
86 BARCODE_PLESSEY UK Plessey
87 BARCODE_TELEPEN_NUM Telepen Numeric
89 BARCODE_ITF14 ITF-14
90 BARCODE_KIX Dutch Post KIX Code
92 BARCODE_AZTEC Aztec Code
93 BARCODE_DAFT DAFT Code
96 BARCODE_DPD DPD Code
97 BARCODE_MICROQR Micro QR Code
98 BARCODE_HIBC_128 HIBC Code 128
99 BARCODE_HIBC_39 HIBC Code 39
102 BARCODE_HIBC_DM HIBC Data Matrix ECC200
104 BARCODE_HIBC_QR HIBC QR Code
106 BARCODE_HIBC_PDF HIBC PDF417
108 BARCODE_HIBC_MICPDF HIBC MicroPDF417
110 BARCODE_HIBC_BLOCKF HIBC Codablock-F
112 BARCODE_HIBC_AZTEC HIBC Aztec Code
115 BARCODE_DOTCODE DotCode
116 BARCODE_HANXIN Han Xin (Chinese Sensible) Code
119 BARCODE_MAILMARK_2D Royal Mail 2D Mailmark (CMDM) (Data
Matrix)
121 BARCODE_MAILMARK_4S Royal Mail 4-State Mailmark
128 BARCODE_AZRUNE Aztec Runes
129 BARCODE_CODE32 Code 32
130 BARCODE_EANX_CC GS1 Composite Symbol with EAN linear
component
131* BARCODE_GS1_128_CC GS1 Composite Symbol with GS1-128 linear
component
132* BARCODE_DBAR_OMN_CC GS1 Composite Symbol with GS1 DataBar
Omnidirectional linear component
133* BARCODE_DBAR_LTD_CC GS1 Composite Symbol with GS1 DataBar
Limited linear component
134* BARCODE_DBAR_EXP_CC GS1 Composite Symbol with GS1 DataBar
Expanded linear component
135 BARCODE_UPCA_CC GS1 Composite Symbol with UPC-A linear
component
136 BARCODE_UPCE_CC GS1 Composite Symbol with UPC-E linear
component
137* BARCODE_DBAR_STK_CC GS1 Composite Symbol with GS1 DataBar
Stacked component
138* BARCODE_DBAR_OMNSTK_CC GS1 Composite Symbol with GS1 DataBar
Stacked Omnidirectional component
139* BARCODE_DBAR_EXPSTK_CC GS1 Composite Symbol with GS1 DataBar
Expanded Stacked component
140 BARCODE_CHANNEL Channel Code
141 BARCODE_CODEONE Code One
142 BARCODE_GRIDMATRIX Grid Matrix
143 BARCODE_UPNQR UPNQR (Univerzalnega Plačilnega Naloga QR)
144 BARCODE_ULTRA Ultracode
145 BARCODE_RMQR Rectangular Micro QR Code (rMQR)
146 BARCODE_BC412 IBM BC412 (SEMI T1-95)
------------------------------------------------------------------------------
: Table : Barcode Types (Symbologies):
2019-12-06 08:47:35 +13:00
4.4 Adjusting Height
The height of a symbol (except those with a fixed width-to-height ratio) can be
adjusted using the --height switch. For example:
2019-12-06 08:47:35 +13:00
zint --height=100 -d "This Text"
2019-12-06 08:47:35 +13:00
This specifies a symbol height of 100 times the X-dimension of the symbol.
2019-12-06 08:47:35 +13:00
2021-11-25 03:06:43 +13:00
The default height of most linear barcodes is 50X, but this can be changed for
barcodes whose specifications give a standard height by using the switch
--compliantheight. For instance
zint -b LOGMARS -d "This Text" --compliantheight
will produce a barcode of height 45.455X instead of the normal default of 50X.
The flag also causes Zint to return a warning if a non-compliant height is
given:
zint -b LOGMARS -d "This Text" --compliantheight --height=6.2
Warning 247: Height not compliant with standards
2021-11-25 03:06:43 +13:00
Another switch is --heightperrow, which can be useful for symbologies that have
a variable number of linear rows, namely Codablock-F, Code 16K, Code 49, GS1
DataBar Expanded Stacked, MicroPDF417 and PDF417, as it changes the treatment of
2021-11-25 03:06:43 +13:00
the height value from overall height to per-row height, allowing you to specify
a consistent height for each linear row without having to know how many there
are. For instance
zint -b PDF417 -d "This Text" --height=4 --heightperrow
[zint -b PDF417 -d "This Text" --height=4 --heightperrow]
will produce a barcode of height 32X, with each of the 8 rows 4X high.
4.5 Adjusting Whitespace
The amount of horizontal whitespace to the left and right of the generated
barcode can be altered using the -w or --whitesp switch, in integral multiples
of the X-dimension. For example:
2019-12-06 08:47:35 +13:00
zint -w 10 -d "This Text"
2019-12-06 08:47:35 +13:00
This specifies a whitespace width of 10 times the X-dimension of the symbol both
to the left and to the right of the barcode.
The amount of vertical whitespace above and below the barcode can be altered
using the --vwhitesp switch, in integral multiples of the X-dimension. For
example for 3 times the X-dimension:
zint --vwhitesp=3 -d "This Text"
Note that the whitespace at the bottom appears below the text, if any.
Horizontal and vertical whitespace can of course be used together:
zint -b DATAMATRIX --whitesp=1 --vwhitesp=1 -d "This Text"
2019-12-06 08:47:35 +13:00
A --quietzones option is also available which adds quiet zones compliant with
the symbologys specification. This is in addition to any whitespace specified
with the --whitesp or --vwhitesp switches.
Note that Codablock-F, Code 16K, Code 49, ITF-14, EAN-2 to EAN-13, ISBN, UPC-A
and UPC-E have compliant quiet zones added by default. This can be disabled with
the option --noquietzones.
4.6 Adding Boundary Bars and Boxes
Zint allows the symbol to be bound with boundary bars (also known as bearer
bars) using the option --bind. These bars help to prevent misreading of the
symbol by corrupting a scan if the scanning beam strays off the top or bottom of
the symbol. Zint can also put a border right around the symbol and its
horizontal whitespace with the --box option.
2019-12-06 08:47:35 +13:00
The width of the boundary bars or box borders, in integral multiples of the
X-dimension, must be specified using the --border switch. For example:
2019-12-06 08:47:35 +13:00
zint --box --border=10 -w 10 -d "This Text"
[zint --border=10 --box -d "This Text" -w 10]
2019-12-06 08:47:35 +13:00
gives a box with a width 10 times the X-dimension of the symbol. Note that when
specifying a box, horizontal whitespace is usually required in order to create a
quiet zone between the barcode and the sides of the box. To add a boundary bar
to the top only use --bindtop.
2019-12-06 08:47:35 +13:00
For linear symbols, horizontal boundary bars appear tight against the barcode,
inside any vertical whitespace (or text). For matrix symbols, however, where
they are decorative rather than functional, boundary bars appear outside any
whitespace.
[zint -b QRCODE --border=1 --box -d "This Text" --quietzones]
Codablock-F, Code 16K and Code 49 always have boundary bars, and default to
particular horizontal whitespace values. Special considerations apply to ITF-14
and DPD - see 6.1.2.6 ITF-14 and 6.1.10.7 DPD Code for those symbologies.
4.7 Using Colour
2019-12-06 08:47:35 +13:00
The default colours of a symbol are a black symbol on a white background. Zint
allows you to change this. The -r or --reverse switch allows the default colours
to be inverted so that a white symbol is shown on a black background (known as
“reflectance reversal” or “reversed reflectance”). For example the command
2019-12-06 08:47:35 +13:00
zint -r -d "This Text"
2019-12-06 08:47:35 +13:00
gives an inverted Code 128 symbol. This is not practical for most symbologies
but white-on-black is allowed by the Aztec Code, Data Matrix, DotCode, Han Xin
Code, Grid Matrix and QR Code symbology specifications.
2019-12-06 08:47:35 +13:00
For more specific needs the foreground (ink) and background (paper) colours can
be specified using the --fg and --bg options followed by a number in "RRGGBB"
hexadecimal notation (the same system used in HTML) or in "C,M,Y,K" decimal
percentages format (the latter normally used with the --cmyk option - see
below). For example the command
2019-12-06 08:47:35 +13:00
zint --fg=00FF00 -d "This Text"
alters the symbol to a bright green.
2019-12-06 08:47:35 +13:00
[zint -d "This Text" --fg=00FF00]
2019-12-06 08:47:35 +13:00
Zint also supports RGBA colour information for those output file formats which
support alpha channels (currently only GIF, PCX, PNG, SVG and TIF, with GIF
supporting either a background or foreground alpha but not both) in a "RRGGBBAA"
format. For example:
zint --fg=00ff0055 -d "This Text"
[zint -d "This Text" --fg=00FF0055]
will produce a semi-transparent green foreground with a standard (white)
background. Note that transparency is treated differently by raster and vector
(SVG) output formats, as for vector output the background will “shine through” a
transparent foreground. For instance
zint --bg=ff0000 --fg=ffffff00 ...
will give different results for PNG and SVG. Experimentation is advised!
In addition the --nobackground option will remove the background from all output
formats except BMP.[4]
The --cmyk option is specific to output in Encapsulated PostScript (EPS) and
TIF, and selects the CMYK colour space. Custom colours should then usually be
given in the comma-separated "C,M,Y,K" format, where C, M, Y and K are expressed
as decimal percentage values from 0 to 100. RGB values may still be used, in
which case they will be converted formulaically to CMYK approximations.
2019-12-06 08:47:35 +13:00
4.8 Rotating the Symbol
The symbol can be rotated through four orientations using the --rotate option
followed by the angle of rotation as shown below.
2019-12-06 08:47:35 +13:00
--rotate=0 (default)
--rotate=90
--rotate=180
--rotate=270
[zint -d "This Text" --rotate=90]
2019-12-06 08:47:35 +13:00
4.9 Adjusting Image Size (X-dimension)
The size of the image can be altered using the --scale option, which sets the
X-dimension. The default scale is 1.
The scale is multiplied by 2 (with the exception of MaxiCode) before being
applied to the X-dimension. For MaxiCode, it is multiplied by 10 for raster
output, by 40 for EMF vector output, and by 2 otherwise (non-EMF vector output).
For non-MaxiCode raster output, the default scale of 1 results in an X-dimension
of 2 pixels. For example for non-MaxiCode PNG images a scale of 5 will increase
the X-dimension to 10 pixels. For MaxiCode, see 4.9.3 MaxiCode Raster Scaling
below.
Scales for non-MaxiCode raster output should be given in increments of 0.5, i.e.
0.5, 1, 1.5, 2, 2.5, 3, 3.5, etc., to avoid the X-dimension varying across the
symbol due to interpolation. 0.5 increments are also faster to render.
The minimum scale for non-MaxiCode raster output in non-dotty mode is 0.5,
giving a minimum X-dimension of 1 pixel. For MaxiCode, it is 0.2. The minimum
scale for raster output in dotty mode is 1 (see 4.15 Working with Dots). For
raster output, text will not be printed for scales less than 1.
The minimum scale for vector output is 0.1, giving a minimum X-dimension of 0.2
(or for MaxiCode EMF output, 4). The maximum scale for both raster and vector is
200.
To summarize the more intricate details:
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
-------------------------------------------------------------------
MaxiCode? Output Multiplier Min. Scale Min. Scale
(non-dotty) (dotty)
----------- ----------------- ------------ ------------- ----------
No Raster 2 0.5 1
No Vector 2 0.1 0.1
Yes Raster 10 0.2 N/A
Yes Vector (non-EMF) 2 0.1 N/A
Yes EMF 40 0.1 N/A
-------------------------------------------------------------------
: Table : Scaling Multipliers and Minima:
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
4.9.1 Scaling by X-dimension and Resolution
An alternative way to specify the scale, which takes the above details into
account, is to specify measurable units using the --scalexdimdp option, which
has the format
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
--scalexdimdp=X[,R]
where X is the X-dimension (in mm by default) and R is the resolution (in dpmm,
dots per mm, by default). R is optional, and defaults to 12 dpmm, and X may be
zero, in which case it uses a symbology-specific default. The units may be given
in inches for X by appending "in", and in dpi (dots per inch) for R by appending
"dpi". For example
zint -d "1234" --scalexdimdp=0.013in,300dpi
Explicit metric units may also be given by appending "mm" and "dpmm" as
appropriate, and may be mixed with U.S. units:
zint -d "1234" --scalexdimdp=0.33mm,300dpi
4.9.2 Scaling Example
The GS1 General Specifications Section 5.2.6.6 Symbol dimensions at nominal
size gives an example of an EAN-13 barcode using the X-dimension of 0.33mm. To
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
print that example as a PNG at 12 dpmm, the approximate equivalent of 300 dpi
(dpi = dpmm * 25.4), specify a scale of 2, since 0.33 * 12 = 3.96 pixels, or 4
pixels rounding to the nearest pixel:
zint -b EANX -d "501234567890" --compliantheight --scale=2
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
This will result in output of 37.29mm x 25.56mm (WxH) at 12 dpmm. The same
result can be achieved using the --scalexdimdp option with
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
zint -b EANX -d "501234567890" --compliantheight --scalexdimdp=0
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
as 0.33mm is the default X-dimension for EAN, and 12 dpmm the default
resolution.
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
4.9.3 MaxiCode Raster Scaling
For MaxiCode symbols, which use hexagons, the scale for raster output is
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
multiplied by 10 before being applied. The 0.5 increment recommended for normal
raster output does not apply.
The minimum scale is 0.2, so the minimum X-dimension is 2 pixels. However scales
below 0.5 are not recommended and may produce symbols that are not within the
following size ranges.
MaxiCode symbols have fixed size ranges of 24.82mm to 27.93mm in width, and
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
23.71mm to 26.69mm in height, excluding quiet zones. The default X-dimension is
0.88mm. For example, to output at the default X-dimension at 600 dpi specify:
zint -b MAXICODE -d "MaxiCode (19 chars)" --scalexdimdp=0,600dpi
2019-12-06 08:47:35 +13:00
4.10 Human Readable Text (HRT) Options
For linear barcodes the text present in the output image can be removed by using
the --notext option. Note also that for raster output text will not be printed
for scales less than 1 (see 4.9 Adjusting Image Size (X-dimension)).
Text can be set to bold using the --bold option, or a smaller font can be
substituted using the --small option. The --bold and --small options can be used
together if required, but only for vector output.
[zint --bold -d "This Text" --small]
The gap between the barcode and the text can be adjusted using the --textgap
option, where the gap is given in X-dimensions, and may be negative (minimum
-5X, maximum 10X). The default gap is 1X. Note that a very small gap may cause
accented texts to overlap with the barcode:
[zint -d "Áccent" --textgap=0.1]
For SVG output, the font preferred by Zint (monospaced “OCR-B” for EAN/UPC,
“Arimo” - a proportional sans-serif font metrically compatible with “Arial” -
for all others) can be embedded in the file for portability using the
--embedfont option:
[zint -d "Áccent" --embedfont]
4.11 Input Modes
4.11.1 Unicode, Data, and GS1 Modes
By default all CLI input data is assumed to be encoded in UTF-8 format. Many
barcode symbologies encode data using the Latin-1 (ISO/IEC 8859-1 plus ASCII)
character set, so input is converted from UTF-8 to Latin-1 before being put in
the symbol. In addition QR Code and its variants and Han Xin Code can by default
encode Japanese (Kanji) or Chinese (Hanzi) characters which are also converted
from UTF-8.
There are two exceptions to the Latin-1 default: Grid Matrix, whose default
character set is GB 2312 (Chinese); and UPNQR, whose default character set is
Latin-2 (ISO/IEC 8859-2 plus ASCII).
Symbology Default character sets Alternate if input not Latin-1
--------------- -------------------------- --------------------------------
Aztec Code Latin-1 None
Codablock-F Latin-1 None
Code 128 Latin-1 None
Code 16K Latin-1 None
Code One Latin-1 None
Data Matrix Latin-1 None
DotCode Latin-1 None
Grid Matrix GB 2312 (includes ASCII) N/A
Han Xin Latin-1 GB 18030 (includes ASCII)
MaxiCode Latin-1 None
MicroPDF417 Latin-1 None
Micro QR Code Latin-1 Shift JIS (includes ASCII[5])
PDF417 Latin-1 None
QR Code Latin-1 Shift JIS (see above)
rMQR Latin-1 Shift JIS (see above)
Ultracode Latin-1 None
UPNQR Latin-2 N/A
All others ASCII N/A
: Table : Default Character Sets:
If Zint encounters characters which can not be encoded using the default
character encoding then it will take advantage of the ECI (Extended Channel
Interpretations) mechanism to encode the data if the symbology supports it - see
4.11.2 Input Modes and ECI below.
2019-12-06 08:47:35 +13:00
GS1 data can be encoded in a number of symbologies. Application Identifiers
(AIs) should be enclosed in [square brackets] followed by the data to be encoded
(see 6.1.10.3 GS1-128). To encode GS1 data use the --gs1 option. GS1 mode is
assumed (and doesnt need to be set) for GS1-128, EAN-14, GS1 DataBar and GS1
Composite symbologies but is also available for Aztec Code, Code 16K, Code 49,
Code One, Data Matrix, DotCode, QR Code and Ultracode.
Health Industry Barcode (HIBC) data may also be encoded in the symbologies Aztec
Code, Codablock-F, Code 128, Code 39, Data Matrix, MicroPDF417, PDF417 and QR
Code. Within this mode, the leading '+' and the check character are
automatically added by Zint, conforming to HIBC Labeler Identification Code
(HIBC LIC). For HIBC Provider Applications Standard (HIBC PAS), preface the data
with a slash '/'.
2019-12-06 08:47:35 +13:00
2020-04-07 06:10:17 +12:00
The --binary option encodes the input data as given. Automatic code page
translation to an ECI page is disabled, and no validation of the datas encoding
takes place. This may be used for raw binary or binary encrypted data. This
switch plays together with the built-in ECI logic and examples may be found
below.
2019-12-06 08:47:35 +13:00
The --fullmultibyte option uses the multibyte modes of QR Code, Micro QR Code,
Rectangular Micro QR Code, Han Xin Code and Grid Matrix for non-ASCII data,
maximizing density. This is achieved by using compression designed for
Kanji/Hanzi characters; however some decoders take blocks which are encoded this
way and interpret them as Kanji/Hanzi characters, thus causing data corruption.
Symbols encoded with this option should be checked against decoders before they
are used. The popular open-source ZXing decoder is known to exhibit this
behaviour.
4.11.2 Input Modes and ECI
If your data contains characters that are not in the default character set, you
may encode it using an ECI-aware symbology and an ECI value from Table
: ECI Codes below. The ECI information is added to your code symbol as prefix
data. The symbologies that support ECI are
------------- -------------- -----------
Aztec Code Grid Matrix PDF417
Code One Han Xin Code QR Code
Data Matrix MaxiCode rMQR
DotCode MicroPDF417 Ultracode
------------- -------------- -----------
: Table : ECI-Aware Symbologies:
Be aware that not all barcode readers support ECI mode, so this can sometimes
lead to unreadable barcodes. If you are using characters beyond those supported
by the default character set then you should check that the resulting barcode
can be understood by your target barcode reader.
2019-12-06 08:47:35 +13:00
The ECI value may be specified with the --eci switch, followed by the value in
the column "ECI Code" in the table below. The input data should be UTF-8
formatted. Zint automatically translates the data into the target encoding.
ECI Code Character Encoding Scheme (ISO/IEC 8859 schemes include ASCII)
---------- ----------------------------------------------------------------
3 ISO/IEC 8859-1 - Latin alphabet No. 1
4 ISO/IEC 8859-2 - Latin alphabet No. 2
5 ISO/IEC 8859-3 - Latin alphabet No. 3
6 ISO/IEC 8859-4 - Latin alphabet No. 4
7 ISO/IEC 8859-5 - Latin/Cyrillic alphabet
8 ISO/IEC 8859-6 - Latin/Arabic alphabet
9 ISO/IEC 8859-7 - Latin/Greek alphabet
10 ISO/IEC 8859-8 - Latin/Hebrew alphabet
11 ISO/IEC 8859-9 - Latin alphabet No. 5 (Turkish)
12 ISO/IEC 8859-10 - Latin alphabet No. 6 (Nordic)
13 ISO/IEC 8859-11 - Latin/Thai alphabet
15 ISO/IEC 8859-13 - Latin alphabet No. 7 (Baltic)
16 ISO/IEC 8859-14 - Latin alphabet No. 8 (Celtic)
17 ISO/IEC 8859-15 - Latin alphabet No. 9
18 ISO/IEC 8859-16 - Latin alphabet No. 10
20 Shift JIS (JIS X 0208 and JIS X 0201)
21 Windows 1250 - Latin 2 (Central Europe)
22 Windows 1251 - Cyrillic
23 Windows 1252 - Latin 1
24 Windows 1256 - Arabic
25 UTF-16BE (High order byte first)
26 UTF-8
27 ASCII (ISO/IEC 646 IRV)
28 Big5 (Taiwan) Chinese Character Set
29 GB 2312 (PRC) Chinese Character Set
30 Korean Character Set EUC-KR (KS X 1001:2002)
31 GBK Chinese Character Set
32 GB 18030 Chinese Character Set
33 UTF-16LE (Low order byte first)
34 UTF-32BE (High order bytes first)
35 UTF-32LE (Low order bytes first)
170 ISO/IEC 646 Invariant[6]
899 8-bit binary data
: Table : ECI Codes:
An ECI value of 0 does not encode any ECI information in the code symbol (unless
the data contains non-default character set characters). In this case, the
default character set applies (see Table : Default Character Sets above).
If no ECI is specified or a value of 0 is given, and the data does contain
characters other than in the default character set, then Zint will automatically
insert the appropriate single-byte ECI if possible (ECIs 3 to 24, excluding ECI
20), or failing that ECI 26 (UTF-8). A warning will be generated. This mechanism
is not applied if the --binary option is given.
Multiple ECIs can be specified using the --segN options - see 4.16 Multiple
Segments.
Note: the --eci=3 specification should only be used for special purposes. Using
this parameter, the ECI information is explicitly added to the symbol.
Nevertheless, for ECI Code 3, this is not usually required, as this is the
default encoding for most barcodes, which is also active without any ECI
information.
4.11.2.1 Input Modes and ECI Example 1
The Euro sign U+20AC can be encoded in ISO/IEC 8859-15. The Euro sign has the
ISO/IEC 8859-15 codepoint hex "A4". It is encoded in UTF-8 as the hex sequence:
"E2 82 AC". Those 3 bytes are contained in the file "utf8euro.txt". This command
will generate the corresponding code:
zint -b 71 --scale=10 --eci=17 -i utf8euro.txt
This is equivalent to the commands (using the --esc switch):
zint -b 71 --scale=10 --eci=17 --esc -d "\xE2\x82\xAC"
zint -b 71 --scale=10 --eci=17 --esc -d "\u20AC"
2019-12-06 08:47:35 +13:00
and to the command:
zint -b 71 --scale=10 --eci=17 -d "€"
[zint -b DATAMATRIX --eci=17 -d "€"]
4.11.2.2 Input Modes and ECI Example 2
The Chinese character with the Unicode codepoint U+5E38 can be encoded in Big5
encoding. The Big5 representation of this character is the two hex bytes:
"B1 60" (contained in the file "big5char.txt"). The generation command for Data
Matrix is:
zint -b 71 --scale=10 --eci=28 --binary -i big5char.txt
This is equivalent to the command (using the --esc switch):
zint -b 71 --scale=10 --eci=28 --binary --esc -d "\xB1\x60"
and to the commands (no --binary switch so conversion occurs):
zint -b 71 --scale=10 --eci=28 --esc -d "\xE5\xB8\xB8"
zint -b 71 --scale=10 --eci=28 --esc -d "\u5E38"
zint -b 71 --scale=10 --eci=28 -d "常"
[zint -b DATAMATRIX --eci=28 -d "\u5E38" --esc]
4.11.2.3 Input Modes and ECI Example 3
Some decoders (in particular mobile app ones) for QR Code assume UTF-8 encoding
by default and do not support ECI. In this case supply UTF-8 data and use the
--binary switch so that the data will be encoded as UTF-8 without conversion:
zint -b 58 --binary -d "UTF-8 data"
[zint -b QRCODE --binary -d "\xE2\x82\xAC\xE5\xB8\xB8" --esc]
2019-12-06 08:47:35 +13:00
4.12 Batch Processing
Data can be batch processed by reading from a text file and producing a separate
barcode image for each line of text in that file. To do this use the --batch
switch together with -i to select the input file from which to read data. For
example
zint -b EANX --batch -i ean13nos.txt
where "ean13nos.txt" contains a list of EAN-13 numbers (GTINs), each on its own
line. Zint will automatically detect the end of a line of text (in either Unix
or Windows formatted text files) and produce a symbol each time it finds this.
Input files should end with a line feed character - if this is not present then
Zint will not encode the last line of text, and will warn you that there is a
problem.
2019-12-06 08:47:35 +13:00
By default Zint will output numbered filenames starting with 00001.png,
00002.png etc. To change this behaviour specify the -o option using special
characters in the output filename as shown in the table below:
2019-12-06 08:47:35 +13:00
Input Character Interpretation
----------------- ----------------------------------------
~ Insert a number or 0
# Insert a number or space
@ Insert a number or * (or + on Windows)
Any other Insert literally
: Table : Batch Filename Formatting:
2019-12-06 08:47:35 +13:00
For instance
zint -b EANX --batch -i ean13nos.txt -o file~~~.svg
2019-12-06 08:47:35 +13:00
The following table shows some examples to clarify this method:
Input Filenames Generated
----------------- -----------------------------------------------------
-o file~~~.svg "file001.svg", "file002.svg", "file003.svg"
-o @@@@bar.png "***1.png", "***2.png", "***3.png" (except Windows)
-o @@@@bar.png "+++1.png", "+++2.png", "+++3.png" (on Windows)
-o my~~~bar.eps "my001bar.eps", "my002bar.eps", "my003bar.eps"
-o t#es~t~.png "t es0t1.png", "t es0t2.png", "t es0t3.png"
: Table : Batch Filename Examples:
2019-12-06 08:47:35 +13:00
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
The special characters can span directories also, which is useful when creating
a large number of barcodes:
Input Filenames Generated
--------------------- ---------------------------------------------
-o dir~/file~~~.svg "dir0/file001.svg", "dir0/file002.svg", …
, "dir0/file999.svg", "dir1/file000.svg", …
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
: Table : Batch Directory Examples:
For an alternative method of naming output files see the --mirror option in 4.14
Automatic Filenames below.
4.13 Direct Output to stdout
The finished image files can be output directly to stdout for use as part of a
pipe by using the --direct option. By default --direct will output data as a PNG
image (or GIF image if libpng is not present), but this can be altered by
supplementing the --direct option with a --filetype option followed by the
suffix of the file type required. For example:
2019-12-06 08:47:35 +13:00
zint -b 84 --direct --filetype=pcx -d "Data to encode"
2019-12-06 08:47:35 +13:00
This command will output the symbol as a PCX file to stdout. For the supported
output file formats see Table : Output File Formats.
--------------------------------------------------------------------------------
CAUTION: Outputting binary files to the command shell without catching that data
in a pipe can have unpredictable results. Use with care!
--------------------------------------------------------------------------------
2019-12-06 08:47:35 +13:00
4.14 Automatic Filenames
The --mirror option instructs Zint to use the data to be encoded as an indicator
of the filename to be used. This is particularly useful if you are processing
batch data. For example the input data "1234567" will result in a file named
"1234567.png".
2019-12-06 08:47:35 +13:00
There are restrictions, however, on what characters can be stored in a filename,
so the filename may vary from the data if the data includes non-printable
characters, for example, and may be shortened if the data input is long.
2019-12-06 08:47:35 +13:00
To set the output file format use the --filetype option as detailed above in
4.13 Direct Output to stdout. To output to a specific directory use the -o
option giving the name of the directory (any filename will be ignored, unless
--filetype is not specified, in which case the filenames extension will be
used).
2019-12-06 08:47:35 +13:00
4.15 Working with Dots
2019-12-06 08:47:35 +13:00
Matrix codes can be rendered as a series of dots or circles rather than the
normal squares by using the --dotty option. This option is only available for
matrix symbologies, and is automatically selected for DotCode. The size of the
dots can be adjusted using the --dotsize option followed by the diameter of the
dot, where that diameter is in X-dimensions. The minimum dot size is 0.01, the
maximum is 20. The default size is 0.8.
The default and minimum scale for raster output in dotty mode is 1.
2019-12-06 08:47:35 +13:00
[zint -b CODEONE -d "123456789012345678" --dotty --vers=9]
4.16 Multiple Segments
If you need to specify different ECIs for different sections of the input data,
the --seg1 to --seg9 options can be used. Each option is of the form
--segN=ECI,data where ECI is the ECI code (see Table : ECI Codes) and data is
the data to which this applies. This is in addition to the ECI and data
specified using the --eci and -d options which must still be present and which
in effect constitute segment 0. For instance
zint -b AZTEC_CODE --eci=9 -d "Κείμενο" --seg1=7,"Текст" --seg2=20,"文章"
specifies 3 segments: segment 0 with ECI 9 (Greek), segment 1 with ECI 7
(Cyrillic), and segment 2 with ECI 20 (Shift JIS). Segments must be consecutive.
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
Naturally the symbology must be ECI-aware (see Table : ECI-Aware Symbologies).
[zint -b AZTEC --eci=9 -d "Κείμενο" --seg1=7,"Текст" --seg2=20,"文章"]
ECIs of zero may be given, in which case Zint will automatically determine an
ECI if necessary, as described in section 4.11.2 Input Modes and ECI.
Multiple segments are not currently supported for use with GS1 data.
4.17 Structured Append
Structured Append is a method of splitting data among several symbols so that
they form a sequence that can be scanned and re-assembled in the correct order
on reading, and is available for Aztec Code, Code One, Data Matrix, DotCode,
Grid Matrix, MaxiCode, MicroPDF417, PDF417, QR Code and Ultracode.
The --structapp option marks a symbol as part of a Structured Append sequence,
and has the format
--structapp=I,C[,ID]
[zint -b DATAMATRIX -d "2nd of 3" --structapp="2,3,5006"]
where I is the index (position) of the symbol in the Structured Append sequence,
C is the count or total number of symbols in the sequence, and ID is an optional
identifier (not available for Code One, DotCode or MaxiCode) that is the same
for all symbols belonging to the same sequence. The index is 1-based and goes
from 1 to count. Count must be 2 or more. See the individual symbologies for
further details.
4.18 Help Options
There are three help options which give information about how to use the command
line. The -h or --help option will display a list of all of the valid options
available, and also gives the exact version of the software (the version by
itself can be displayed with -v or --version).
2019-12-06 08:47:35 +13:00
The -t or --types option gives the table of symbologies along with the symbol ID
numbers and names.
2019-12-06 08:47:35 +13:00
The -e or --ecinos option gives a list of the ECI codes.
4.19 Other Options
2019-12-06 08:47:35 +13:00
Zint can output a representation of the symbol data as a set of hexadecimal
values if asked to output to a text file ("*.txt") or if given the option
2019-12-06 08:47:35 +13:00
--filetype=txt. This can be used for test and diagnostic purposes.
Additional options are available which are specific to certain symbologies.
These may, for example, control the amount of error correction data or the size
of the symbol. These options are discussed in section 6. Types of Symbology of
this guide.
2019-12-06 08:47:35 +13:00
5. Using the API
Zint has been written using the C language and has an API for use with C/C++
language programs. A Qt interface (see Annex B. Qt Backend QZint) is available
in the "backend_qt" sub-directory, and a Tcl interface is available in the
"backend_tcl" sub-directory (see Annex C. Tcl Backend Binding).
2019-12-06 08:47:35 +13:00
The libzint API has been designed to be very similar to that used by the GNU
Barcode package. This allows easy migration from GNU Barcode to Zint. Zint,
however, uses none of the same function names or option names as GNU Barcode.
This allows you to use both packages in your application without conflict if you
wish.
2019-12-06 08:47:35 +13:00
5.1 Creating and Deleting Symbols
2019-12-06 08:47:35 +13:00
The symbols manipulated by Zint are held in a zint_symbol structure defined in
"zint.h". These symbol structures are created with the ZBarcode_Create()
function and deleted using the ZBarcode_Delete() function. For example the
following code creates and then deletes a symbol:
2019-12-06 08:47:35 +13:00
#include <zint.h>
#include <stdio.h>
int main()
2019-12-06 08:47:35 +13:00
{
struct zint_symbol *my_symbol;
my_symbol = ZBarcode_Create();
if (my_symbol != NULL) {
printf("Symbol successfully created!\n");
ZBarcode_Delete(my_symbol);
}
return 0;
2019-12-06 08:47:35 +13:00
}
When compiling this code it will need to be linked with the libzint library
using the -lzint option:
gcc -o simple simple.c -lzint
2019-12-06 08:47:35 +13:00
5.2 Encoding and Saving to File
2019-12-06 08:47:35 +13:00
To encode data in a barcode use the ZBarcode_Encode() function. To write the
symbol to a file use the ZBarcode_Print() function. For example the following
code takes a string from the command line and outputs a Code 128 symbol to a PNG
file named "out.png" (or a GIF file "out.gif" if libpng is not present) in the
current working directory:
2019-12-06 08:47:35 +13:00
#include <zint.h>
int main(int argc, char **argv)
{
struct zint_symbol *my_symbol;
my_symbol = ZBarcode_Create();
ZBarcode_Encode(my_symbol, argv[1], 0);
ZBarcode_Print(my_symbol, 0);
ZBarcode_Delete(my_symbol);
return 0;
}
2019-12-06 08:47:35 +13:00
This can also be done in one stage using the ZBarcode_Encode_and_Print()
function as shown in the next example:
#include <zint.h>
int main(int argc, char **argv)
{
struct zint_symbol *my_symbol;
my_symbol = ZBarcode_Create();
ZBarcode_Encode_and_Print(my_symbol, argv[1], 0, 0);
ZBarcode_Delete(my_symbol);
return 0;
}
2019-12-06 08:47:35 +13:00
Note that when using the API, the input data is assumed to be 8-bit binary
unless the input_mode member of the zint_symbol structure is set - see 5.11
Setting the Input Mode for details.
2019-12-06 08:47:35 +13:00
5.3 Encoding and Printing Functions in Depth
2019-12-06 08:47:35 +13:00
The functions for encoding and printing barcodes are defined as:
int ZBarcode_Encode(struct zint_symbol *symbol,
const unsigned char *source, int length);
2019-12-06 08:47:35 +13:00
int ZBarcode_Encode_File(struct zint_symbol *symbol,
const char *filename);
2019-12-06 08:47:35 +13:00
int ZBarcode_Print(struct zint_symbol *symbol, int rotate_angle);
2019-12-06 08:47:35 +13:00
int ZBarcode_Encode_and_Print(struct zint_symbol *symbol,
const unsigned char *source, int length, int rotate_angle);
2019-12-06 08:47:35 +13:00
int ZBarcode_Encode_File_and_Print(struct zint_symbol *symbol,
const char *filename, int rotate_angle);
2019-12-06 08:47:35 +13:00
In these definitions length can be used to set the length of the input string.
This allows the encoding of NUL (ASCII 0) characters in those symbologies which
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
allow this. A value of 0 (or less than 0) will disable this usage and Zint will
encode data up to the first NUL character in the input string, which must be
present.
2019-12-06 08:47:35 +13:00
The rotate_angle value can be used to rotate the image when outputting. Valid
values are 0, 90, 180 and 270.
2019-12-06 08:47:35 +13:00
The ZBarcode_Encode_File() and ZBarcode_Encode_File_and_Print() functions can be
used to encode data read directly from a text file where the filename is given
in the NUL-terminated filename string. The special filename "-" (single hyphen)
can be used to read from stdin. Note that on Windows, filenames are assumed to
be UTF-8 encoded.
2019-12-06 08:47:35 +13:00
If printing more than one barcode, the zint_symbol structure may be re-used by
calling the ZBarcode_Clear() function after each barcode to free any output
buffers allocated. The zint_symbol input members must be reset. To fully restore
zint_symbol to its default state, call ZBarcode_Reset() instead.
5.4 Buffering Symbols in Memory (raster)
2019-12-06 08:47:35 +13:00
In addition to saving barcode images to file Zint allows you to access a
representation of the resulting bitmap image in memory. The following functions
allow you to do this:
int ZBarcode_Buffer(struct zint_symbol *symbol, int rotate_angle);
2019-12-06 08:47:35 +13:00
int ZBarcode_Encode_and_Buffer(struct zint_symbol *symbol,
const unsigned char *source, int length, int rotate_angle);
2019-12-06 08:47:35 +13:00
int ZBarcode_Encode_File_and_Buffer(struct zint_symbol *symbol,
const char *filename, int rotate_angle);
2019-12-06 08:47:35 +13:00
The arguments here are the same as above, and rotation and colour options can be
used with the buffer functions in the same way as when saving to a file. The
difference is that instead of saving the image to a file it is placed in a byte
(unsigned char) array pointed to by the bitmap member, with bitmap_width set to
the number of columns and bitmap_height set to the number of rows.
The RGB channels are split into 3 consecutive red, green, blue bytes per pixel,
and there are bitmap_width pixels per row and bitmap_height rows, so the total
size of the bitmap array is 3 * bitmap_width * bitmap_height.
If the background and/or foreground are RGBA then the byte array alphamap will
also be set, with a single alpha value for each pixel. Its total size will be
bitmap_width * bitmap_height.
The pixel data can be extracted from the array (or arrays) by the method shown
in the example below, where render_rgb() and render_rgba() are assumed to be
functions for drawing an RGB and RGBA pixel on the screen implemented by the
client application:
int row, col, i = 0, j = 0;
int red, blue, green, alpha;
for (row = 0; row < my_symbol->bitmap_height; row++) {
for (col = 0; col < my_symbol->bitmap_width; col++) {
red = (int) my_symbol->bitmap[i];
green = (int) my_symbol->bitmap[i + 1];
blue = (int) my_symbol->bitmap[i + 2];
if (my_symbol->alphamap) {
alpha = (int) my_symbol->alphamap[j];
render_rgba(row, col, red, green, blue, alpha);
j++;
} else {
render_rgb(row, col, red, green, blue);
}
i += 3;
}
}
2019-12-06 08:47:35 +13:00
Where speed is important, the buffer can be returned instead in a more compact
intermediate form using the output option OUT_BUFFER_INTERMEDIATE. Here each
byte is an ASCII value: '1' for foreground colour and '0' for background colour,
except for Ultracode, which also uses colour codes: 'W' for white, 'C' for cyan,
'B' for blue, 'M' for magenta, 'R' for red, 'Y' for yellow, 'G' for green, and
'K' for black. Alpha values are not reported (alphamap will always be NULL). The
loop for accessing the data is then:
int row, col, i = 0;
for (row = 0; row < my_symbol->bitmap_height; row++) {
for (col = 0; col < my_symbol->bitmap_width; col++) {
render_pixel(row, col, my_symbol->bitmap[i]);
i++;
}
}
5.5 Buffering Symbols in Memory (vector)
Symbols can also be saved to memory in a vector representation as well as a
bitmap one. The following functions, exactly analogous to the ones above, allow
you to do this:
int ZBarcode_Buffer_Vector(struct zint_symbol *symbol, int rotate_angle);
int ZBarcode_Encode_and_Buffer_Vector(struct zint_symbol *symbol,
const unsigned char *source, int length, int rotate_angle);
int ZBarcode_Encode_File_and_Buffer_Vector(struct zint_symbol *symbol,
const char *filename, int rotate_angle);
Here the vector member is set to point to a zint_vector header structure which
contains pointers to lists of structures representing the various elements of
the barcode: rectangles, hexagons, strings and circles. To draw the barcode,
each of the element types is iterated in turn, and using the information stored
is drawn by a rendering system. For instance, to draw a barcode using a
rendering system with prepare_canvas(), draw_rect(), draw_hexagon(),
draw_string(), and draw_circle() routines available:
struct zint_vector_rect *rect;
struct zint_vector_hexagon *hex;
struct zint_vector_string *string;
struct zint_vector_circle *circle;
prepare_canvas(my_symbol->vector->width, my_symbol->vector->height,
my_symbol->scale, my_symbol->fgcolour, my_symbol->bgcolour,
rotate_angle);
for (rect = my_symbol->vector->rectangles; rect; rect = rect->next) {
draw_rect(rect->x, rect->y, rect->width, rect->height,
rect->colour);
}
for (hex = my_symbol->vector->hexagons; hex; hex = hex->next) {
draw_hexagon(hex->x, hex->y, hex->diameter, hex->rotation);
}
for (string = my_symbol->vector->strings; string; string = string->next) {
draw_string(string->x, string->y, string->fsize,
string->rotation, string->halign,
string->text, string->length);
}
for (circle = my_symbol->vector->circles; circle; circle = circle->next) {
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
draw_circle(circle->x, circle->y, circle->diameter, circle->width);
}
5.6 Buffering Symbols in Memory (memfile)
Symbols can also be stored as “in-memory” file buffers by giving the
BARCODE_MEMORY_FILE option to the output_options member, which saves the print
output to member memfile instead of to the output file outfile. The length of
the buffer is given in memfile_size. For instance:
#include <zint.h>
#include <stdio.h>
#include <string.h>
int main(int argc, char **argv)
{
struct zint_symbol *my_symbol;
my_symbol = ZBarcode_Create();
my_symbol->output_options |= BARCODE_MEMORY_FILE;
/* Only the extension is used, to determine output format */
strcpy(my_symbol->outfile, "mem.svg");
ZBarcode_Encode_and_Print(my_symbol, argv[1], 0, 0);
/* `my_symbol->memfile` now contains the SVG output */
fwrite(my_symbol->memfile, 1, my_symbol->memfile_size, stdout);
ZBarcode_Delete(my_symbol);
return 0;
}
will print the SVG output to stdout (the file “mem.svg” is not created). This is
particularly useful for the textual formats EPS and SVG,[7] allowing the output
to be manipulated and processed by the client.
5.7 Setting Options
2019-12-06 08:47:35 +13:00
So far our application is not very useful unless we plan to only make Code 128
symbols and we dont mind that they only save to "out.png" (or to memory, as
above). As with the CLI program, of course, these options can be altered. The
way this is done is by altering the contents of the zint_symbol structure
between the creation and encoding stages. The zint_symbol structure consists of
the following members:
2019-12-06 08:47:35 +13:00
------------------------------------------------------------------------------
Member Name Type Meaning Default Value
-------------------- ------------ -------------------------- -----------------
symbology integer Symbol to use - see 5.9 BARCODE_CODE128
Specifying a Symbology.
height float Symbol height in Symbol dependent
X-dimensions, excluding
fixed width-to-height
symbols.[8]
scale float Scale factor for adjusting 1.0
size of image (sets
X-dimension).
whitespace_width integer Horizontal whitespace 0
width in X-dimensions.
whitespace_height integer Vertical whitespace height 0
in X-dimensions.
border_width integer Border width in 0
X-dimensions.
output_options integer Set various output 0 (none)
parameters - see 5.10
Adjusting Output Options.
fgcolour character Foreground (ink) colour as "000000"
string RGB/RGBA hexadecimal
string or "C,M,Y,K"
decimal percentages
string, with a terminating
NUL.
bgcolour character Background (paper) colour "ffffff"
string as RGB/RGBA hexadecimal
string or "C,M,Y,K"
decimal percentages
string, with a terminating
NUL.
fgcolor pointer Points to fgcolour
allowing alternate
spelling.
bgcolor pointer Points to bgcolour
allowing alternate
spelling.
outfile character Contains the name of the "out.png"
string file to output a resulting
barcode symbol to. Must
end in .png, .gif, .bmp,
.emf, .eps, .pcx, .svg,
.tif or .txt followed by a
terminating NUL.[9]
primary character Primary message data for "" (empty)
string more complex symbols, with
a terminating NUL.
option_1 integer Symbol specific options. -1
option_2 integer Symbol specific options. 0
option_3 integer Symbol specific options. 0
show_hrt integer Set to 0 to hide Human 1
Readable Text (HRT).
input_mode integer Set encoding of input DATA_MODE
data - see 5.11 Setting
the Input Mode.
eci integer Extended Channel 0 (none)
Interpretation code.
dpmm float Resolution of output in 0 (none)
dots per mm (BMP, EMF,
PCX, PNG and TIF only).
dot_size float Diameter of dots used in 0.8
dotty mode (in
X-dimensions).
text_gap float Gap between barcode and 1.0
text (HRT) in
X-dimensions.
guard_descent float Height of guard bar 5.0
descent (EAN/UPC only) in
X-dimensions.
structapp Structured Mark a symbol as part of a count 0
Append sequence of symbols. (disabled)
structure
debug integer Debugging flags. 0
warn_level integer Affects error/warning WARN_DEFAULT
value returned by Zint
API - see 5.8 Handling
Errors.
text unsigned Human Readable Text, which "" (empty)
character usually consists of input (output only)
string data plus one more check
digit. Uses UTF-8
formatting, with a
terminating NUL.
rows integer Number of rows used by the (output only)
symbol.
width integer Width of the generated (output only)
symbol.
encoded_data array of Representation of the (output only)
unsigned encoded data.
character
arrays
row_height array of Heights of each row. (output only)
floats
errtxt character Error message in the event (output only)
string that an error occurred,
with a terminating NUL -
see 5.8 Handling Errors.
bitmap pointer to Pointer to stored bitmap (output only)
unsigned image - see 5.4 Buffering
character Symbols in Memory
array (raster).
bitmap_width integer Width of stored bitmap (output only)
image (in pixels) - see
bitmap member.
bitmap_height integer Height of stored bitmap (output only)
image (in pixels) - see
bitmap member.
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
alphamap pointer to Pointer to array (output only)
unsigned representing alpha channel
character of stored bitmap image (or
array NULL if no alpha channel
used) - see bitmap member.
vector pointer to Pointer to vector header (output only)
vector containing pointers to
structure vector elements - see 5.5
Buffering Symbols in
Memory (vector).
memfile pointer to Pointer to in-memory file (output only)
unsigned buffer if
character BARCODE_MEMORY_FILE set in
array output_options - see 5.6
Buffering Symbols in
Memory (memfile).
memfile_size integer Length of in-memory file (output only)
buffer.
------------------------------------------------------------------------------
: Table  : API Structure zint_symbol
2019-12-06 08:47:35 +13:00
To alter these values use the syntax shown in the example below. This code has
the same result as the previous example except the output is now taller and
plotted in green.
#include <zint.h>
#include <string.h>
int main(int argc, char **argv)
{
struct zint_symbol *my_symbol;
my_symbol = ZBarcode_Create();
strcpy(my_symbol->fgcolour, "00ff00");
my_symbol->height = 400.0f;
ZBarcode_Encode_and_Print(my_symbol, argv[1], 0, 0);
ZBarcode_Delete(my_symbol);
return 0;
}
Note that background removal for all outputs except BMP can be achieved by
setting the background alpha to "00" where the values for R, G and B will be
ignored:
strcpy(my_symbol->bgcolour, "55555500");
This is what the CLI option --nobackground does - see 4.7 Using Colour.
5.8 Handling Errors
If errors occur during encoding a non-zero integer value is passed back to the
calling application. In addition the errtxt member is set to a message detailing
the nature of the error. The errors generated by Zint are:
2019-12-06 08:47:35 +13:00
------------------------------------------------------------------------------
Return Value Meaning
------------------------------ -----------------------------------------------
ZINT_WARN_HRT_TRUNCATED The Human Readable Text returned in text was
truncated (maximum 199 bytes).
ZINT_WARN_INVALID_OPTION One of the values in zint_struct was set
incorrectly but Zint has made a guess at what
it should have been and generated a barcode
accordingly.
ZINT_WARN_USES_ECI Zint has automatically inserted an ECI
character. The symbol may not be readable with
some readers.
ZINT_WARN_NONCOMPLIANT The symbol was created but is not compliant
with certain standards set in its specification
(e.g. height, GS1 AI data lengths).
ZINT_ERROR Marks the divide between warnings and errors.
For return values greater than or equal to this
no symbol (or only an incomplete symbol) is
generated.
ZINT_ERROR_TOO_LONG The input data is too long or too short for the
selected symbology. No symbol has been
generated.
ZINT_ERROR_INVALID_DATA The data to be encoded includes characters
which are not permitted by the selected
symbology (e.g. alphabetic characters in an EAN
symbol). No symbol has been generated.
ZINT_ERROR_INVALID_CHECK Data with an incorrect check digit has been
entered. No symbol has been generated.
ZINT_ERROR_INVALID_OPTION One of the values in zint_struct was set
incorrectly and Zint was unable (or unwilling)
to guess what it should have been. No symbol
has been generated.
ZINT_ERROR_ENCODING_PROBLEM A problem has occurred during encoding of the
data. This should never happen. Please contact
the developer if you encounter this error.
ZINT_ERROR_FILE_ACCESS Zint was unable to open the requested output
file. This is usually a file permissions
problem.
ZINT_ERROR_MEMORY Zint ran out of memory. This should only be a
problem with legacy systems.
ZINT_ERROR_FILE_WRITE Zint failed to write all contents to the
requested output file. This should only occur
if the output device becomes full.
ZINT_ERROR_USES_ECI Returned if warn_level set to WARN_FAIL_ALL and
ZINT_WARN_USES_ECI occurs.
ZINT_ERROR_NONCOMPLIANT Returned if warn_level set to WARN_FAIL_ALL and
ZINT_WARN_NONCOMPLIANT occurs.
ZINT_ERROR_HRT_TRUNCATED Returned if warn_level set to WARN_FAIL_ALL and
ZINT_WARN_HRT_TRUNCATED occurs.
------------------------------------------------------------------------------
: Table : API Warning and Error Return Values:
2019-12-06 08:47:35 +13:00
To catch errors use an integer variable as shown in the code below:
#include <zint.h>
#include <stdio.h>
#include <string.h>
int main(int argc, char **argv)
2019-12-06 08:47:35 +13:00
{
struct zint_symbol *my_symbol;
int error;
my_symbol = ZBarcode_Create();
/* Set invalid foreground colour */
strcpy(my_symbol->fgcolour, "nonsense");
error = ZBarcode_Encode_and_Print(my_symbol, argv[1], 0, 0);
if (error != 0) {
/* Some warning or error occurred */
printf("%s\n", my_symbol->errtxt);
if (error >= ZINT_ERROR) {
/* Stop now */
ZBarcode_Delete(my_symbol);
return 1;
}
}
/* Otherwise carry on with the rest of the application */
2019-12-06 08:47:35 +13:00
ZBarcode_Delete(my_symbol);
return 0;
2019-12-06 08:47:35 +13:00
}
This code will exit with the appropriate message:
Error 881: Malformed foreground RGB colour 'nonsense' (hexadecimal only)
2019-12-06 08:47:35 +13:00
To treat all warnings as errors, set symbol->warn_level to WARN_FAIL_ALL.
5.9 Specifying a Symbology
2019-12-06 08:47:35 +13:00
Symbologies can be specified by number or by name as shown in the Table
: Barcode Types (Symbologies). For example
2019-12-06 08:47:35 +13:00
symbol->symbology = BARCODE_LOGMARS;
2019-12-06 08:47:35 +13:00
means the same as
2019-12-06 08:47:35 +13:00
symbol->symbology = 50;
5.10 Adjusting Output Options
The output_options member can be used to adjust various aspects of the output
file. To select more than one option from the table below simply OR them
together when adjusting this value:
2019-12-06 08:47:35 +13:00
my_symbol->output_options |= BARCODE_BIND | READER_INIT;
2019-12-06 08:47:35 +13:00
------------------------------------------------------------------------------
Value Effect
-------------------------- ---------------------------------------------------
0 No options selected.
BARCODE_BIND_TOP Boundary bar above the symbol only.[10]
BARCODE_BIND Boundary bars above and below the symbol and
between rows if stacking multiple symbols.[11]
BARCODE_BOX Add a box surrounding the symbol and whitespace.
BARCODE_STDOUT Output the file to stdout.
READER_INIT Create as a Reader Initialisation (Programming)
symbol.
SMALL_TEXT Use a smaller font for the Human Readable Text.
BOLD_TEXT Embolden the Human Readable Text.
CMYK_COLOUR Select the CMYK colour space option for
Encapsulated PostScript and TIF files.
BARCODE_DOTTY_MODE Plot a matrix symbol using dots rather than
squares.
GS1_GS_SEPARATOR Use GS (Group Separator) instead of FNC1 as GS1
separator (Data Matrix only).
OUT_BUFFER_INTERMEDIATE Return the bitmap buffer as ASCII values instead of
separate colour channels - see 5.4 Buffering
Symbols in Memory (raster).
BARCODE_QUIET_ZONES Add compliant quiet zones (additional to any
specified whitespace).[12]
2019-12-06 08:47:35 +13:00
BARCODE_NO_QUIET_ZONES Disable quiet zones, notably those with defaults.
COMPLIANT_HEIGHT Warn if height specified not compliant, or use
standard height (if any) as default.
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
EANUPC_GUARD_WHITESPACE Add quiet zone indicators (“<” and/or “>”) to HRT
whitespace (EAN/UPC).
EMBED_VECTOR_FONT Embed font in vector output - currently available
for SVG output only.
BARCODE_MEMORY_FILE Write output to in-memory buffer symbol->memfile
instead of to outfile file.
------------------------------------------------------------------------------
: Table  : API output_options Values
5.11 Setting the Input Mode
2019-12-06 08:47:35 +13:00
The way in which the input data is encoded can be set using the input_mode
member. Valid values are shown in the table below.
2019-12-06 08:47:35 +13:00
------------------------------------------------------------------------------
Value Effect
------------------- ----------------------------------------------------------
DATA_MODE Uses full 8-bit range interpreted as binary data.
UNICODE_MODE Uses UTF-8 input.
GS1_MODE Encodes GS1 data using FNC1 characters.
The above are exclusive, the following optional and OR-ed.
ESCAPE_MODE Process input data for escape sequences.
GS1PARENS_MODE Parentheses (round brackets) used in GS1 data instead of
square brackets to delimit Application Identifiers
(parentheses must not otherwise occur in the data).
GS1NOCHECK_MODE Do not check GS1 data for validity, i.e. suppress checks
for valid AIs and data lengths. Invalid characters (e.g.
control characters, extended ASCII characters) are still
checked for.
HEIGHTPERROW_MODE Interpret the height member as per-row rather than as
overall height.
FAST_MODE Use faster if less optimal encodation or other shortcuts
if available (affects DATAMATRIX, MICROPDF417, PDF417,
QRCODE and UPNQR only).
EXTRA_ESCAPE_MODE Process special symbology-specific escape sequences
(CODE128 only).
------------------------------------------------------------------------------
: Table  : API input_mode Values
2019-12-06 08:47:35 +13:00
The default mode is DATA_MODE. (Note that this differs from the default for the
CLI and GUI, which is UNICODE_MODE.)
DATA_MODE, UNICODE_MODE and GS1_MODE are mutually exclusive, whereas
ESCAPE_MODE, GS1PARENS_MODE, GS1NOCHECK_MODE, HEIGHTPERROW_MODE, FAST_MODE and
EXTRA_ESCAPE_MODE are optional. So, for example, you can set
2019-12-06 08:47:35 +13:00
my_symbol->input_mode = UNICODE_MODE | ESCAPE_MODE;
2019-12-06 08:47:35 +13:00
or
my_symbol->input_mode = GS1_MODE | GS1PARENS_MODE | GS1NOCHECK_MODE;
2019-12-06 08:47:35 +13:00
whereas
my_symbol->input_mode = DATA_MODE | GS1_MODE;
2019-12-06 08:47:35 +13:00
is not valid.
Permissible escape sequences (ESCAPE_MODE) are listed in Table
: Escape Sequences, and the special Code 128-only EXTRA_ESCAPE_MODE escape
sequences are given in 6.1.10.1 Standard Code 128 (ISO 15417). An example of
GS1PARENS_MODE usage is given in section 6.1.10.3 GS1-128.
GS1NOCHECK_MODE is for use with legacy systems that have data that does not
conform to the current GS1 standard. Printable ASCII input is still checked for,
as is the validity of GS1 data specified without AIs (e.g. linear data for GS1
DataBar Omnidirectional/Limited/etc.).
2019-12-06 08:47:35 +13:00
For HEIGHTPERROW_MODE, see --heightperrow in section 4.4 Adjusting Height. The
height member should be set to the desired per-row value on input (it will be
set to the overall height on output).
FAST_MODE causes a less optimal encodation scheme to be used for Data Matrix,
MicroPDF417 and PDF417. For QR Code and UPNQR, it affects Zints automatic mask
selection - see 6.6.3 QR Code (ISO 18004) for details.
5.12 Multiple Segments
For input data requiring multiple ECIs, the following functions may be used:
int ZBarcode_Encode_Segs(struct zint_symbol *symbol,
const struct zint_seg segs[], const int seg_count);
int ZBarcode_Encode_Segs_and_Print(struct zint_symbol *symbol,
const struct zint_seg segs[], const int seg_count, int rotate_angle);
int ZBarcode_Encode_Segs_and_Buffer(struct zint_symbol *symbol,
const struct zint_seg segs[], const int seg_count, int rotate_angle);
int ZBarcode_Encode_Segs_and_Buffer_Vector(struct zint_symbol *symbol,
const struct zint_seg segs[], const int seg_count, int rotate_angle);
These are direct analogues of the previously mentioned ZBarcode_Encode(),
ZBarcode_Encode_and_Print(), ZBarcode_Encode_and_Buffer() and
ZBarcode_Encode_and_Buffer_Vector() respectively, where instead of a pair
consisting of "source, length", a pair consisting of "segs, seg_count" is given,
with segs being an array of struct zint_seg segments and seg_count being the
number of elements it contains. The zint_seg structure is of the form:
struct zint_seg {
unsigned char *source; /* Data to encode */
int length; /* Length of `source`. If 0, `source` must be
NUL-terminated */
int eci; /* Extended Channel Interpretation */
};
The symbology must support ECIs (see Table : ECI-Aware Symbologies). For
example:
#include <zint.h>
int main(int argc, char **argv)
{
struct zint_seg segs[] = {
{ "Κείμενο", 0, 9 },
{ "Текст", 0, 7 },
{ "文章", 0, 20 }
};
struct zint_symbol *my_symbol;
my_symbol = ZBarcode_Create();
my_symbol->symbology = BARCODE_AZTEC;
my_symbol->input_mode = UNICODE_MODE;
ZBarcode_Encode_Segs(my_symbol, segs, 3);
ZBarcode_Print(my_symbol, 0);
ZBarcode_Delete(my_symbol);
return 0;
}
A maximum of 256 segments may be specified. Use of multiple segments with GS1
data is not currently supported.
5.13 Scaling Helpers
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
To help with scaling the output, the following three function are available:
float ZBarcode_Default_Xdim(int symbol_id);
float ZBarcode_Scale_From_XdimDp(int symbol_id, float x_dim_mm, float dpmm,
const char *filetype) {
float ZBarcode_XdimDP_From_Scale(int symbol_id, float scale,
float x_dim_mm_or_dpmm, const char *filetype);
The first ZBarcode_Default_Xdim() returns the default X-dimension suggested by
Zint for symbology symbol_id.
The second ZBarcode_Scale_From_XdimDp() returns the scale to use to output to a
file of type filetype with X-dimension x_dim_mm at dpmm dots per mm. The given
X-dimension must be non-zero and less than or equal to 10mm, however dpmm may be
zero and defaults to 12 dpmm, and filetype may be NULL or empty in which case a
GIF filetype is assumed. For raster output (BMP/GIF/PCX/PNG/TIF) the scale is
rounded to half-integer increments.
For example:
/* Royal Mail 4-State Customer Code */
my_symbol->symbology = BARCODE_RM4SCC;
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
my_symbol->dpmm = 600.0f / 25.4f; /* 600 dpi */
my_symbol->scale = ZBarcode_Scale_From_XdimDp(
my_symbol->symbology,
ZBarcode_Default_Xdim(my_symbol->symbology),
my_symbol->dpmm, "PNG"); /* Returns 7.5 */
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
The third function ZBarcode_XdimDP_From_Scale() is the “reverse” of
ZBarcode_Scale_From_XdimDp(), returning the X-dimension (in mm) or the dot
density (in dpmm) given a scale scale. Both scale and x_dim_mm_or_dpmm must be
non-zero. The returned value is bound to the maximum value of dpmm (1000), so
must be further bound to 10 on return if the X-dimension is sought.
Note that the X-dimension to use is application dependent, and varies not only
due to the symbology, resolution and filetype but also due to the type of
scanner used, the intended scanning distance, and what media (“substrates”) the
barcode appears on.
5.14 Verifying Symbology Availability
2019-12-06 08:47:35 +13:00
An additional function available in the API is:
2019-12-06 08:47:35 +13:00
int ZBarcode_ValidID(int symbol_id);
2019-12-06 08:47:35 +13:00
which allows you to check whether a given symbology is available, returning a
non-zero value if so. For example:
if (ZBarcode_ValidID(BARCODE_PDF417) != 0) {
printf("PDF417 available\n");
} else {
printf("PDF417 not available\n");
}
Another function that may be useful is:
int ZBarcode_BarcodeName(int symbol_id, char name[32]);
which copies the name of a symbology into the supplied name buffer, which should
be 32 characters in length. The name is NUL-terminated, and zero is returned on
success. For instance:
char name[32];
if (ZBarcode_BarcodeName(BARCODE_PDF417, name) == 0) {
printf("%s\n", name);
}
will print BARCODE_PDF417.
5.15 Checking Symbology Capabilities
It can be useful for frontend programs to know the capabilities of a symbology.
This can be determined using another additional function:
unsigned int ZBarcode_Cap(int symbol_id, unsigned int cap_flag);
by OR-ing the flags below in the cap_flag argument and checking the return to
see which are set.
------------------------------------------------------------------------------
Value Meaning
--------------------------- --------------------------------------------------
ZINT_CAP_HRT Can the symbology print Human Readable Text?
ZINT_CAP_STACKABLE Is the symbology stackable?
ZINT_CAP_EANUPC[13] Is the symbology EAN/UPC?
ZINT_CAP_COMPOSITE Does the symbology support composite data? (see
6.3 GS1 Composite Symbols (ISO 24723) below)
ZINT_CAP_ECI Does the symbology support Extended Channel
Interpretations?
ZINT_CAP_GS1 Does the symbology support GS1 data?
ZINT_CAP_DOTTY Can the symbology be outputted as dots?
ZINT_CAP_QUIET_ZONES Does the symbology have default quiet zones?
ZINT_CAP_FIXED_RATIO Does the symbology have a fixed width-to-height
(aspect) ratio?
ZINT_CAP_READER_INIT Does the symbology support Reader Initialisation?
ZINT_CAP_FULL_MULTIBYTE Is the ZINT_FULL_MULTIBYTE option applicable?
ZINT_CAP_MASK Is mask selection applicable?
ZINT_CAP_STRUCTAPP Does the symbology support Structured Append?
ZINT_CAP_COMPLIANT_HEIGHT Does the symbology have a compliant height
defined?
------------------------------------------------------------------------------
: Table : API Capability Flags:
For example:
unsigned int cap;
cap = ZBarcode_Cap(BARCODE_PDF417, ZINT_CAP_HRT | ZINT_CAP_ECI);
if (cap & ZINT_CAP_HRT) {
printf("PDF417 supports HRT\n");
} else {
printf("PDF417 does not support HRT\n");
}
if (cap & ZINT_CAP_ECI) {
printf("PDF417 supports ECI\n");
} else {
printf("PDF417 does not support ECI\n");
}
5.16 Zint Version
Whether the Zint library linked to was built with PNG support may be determined
with:
int ZBarcode_NoPng();
which returns 1 if no PNG support is available, else zero.
Lastly, the version of the Zint library linked to is returned by:
int ZBarcode_Version();
The version parts are separated by hundreds. For instance, version "2.9.1" is
returned as "20901".
2019-12-06 08:47:35 +13:00
6. Types of Symbology
2019-12-06 08:47:35 +13:00
6.1 One-Dimensional Symbols
One-dimensional or linear symbols are what most people associate with the term
barcode. They consist of a number of bars and a number of spaces of differing
widths.
2019-12-06 08:47:35 +13:00
6.1.1 Code 11
[zint -b CODE11 -d "9212320967"]
2019-12-06 08:47:35 +13:00
Developed by Intermec in 1977, Code 11 is similar to Code 2 of 5 Matrix and is
primarily used in telecommunications. The symbol can encode data consisting of
the digits 0-9 and the dash character (-) up to a maximum of 140 characters. Two
modulo-11 check digits are added by default. To add just one check digit, set
--vers=1 (API option_2 = 1). To add no check digits, set --vers=2 (API
option_2 = 2).
2019-12-06 08:47:35 +13:00
6.1.2 Code 2 of 5
2019-12-06 08:47:35 +13:00
Code 2 of 5 is a family of one-dimensional symbols, 8 of which are supported by
Zint. Note that the names given to these standards alters from one source to
another so you should take care to ensure that you have the right barcode type
before using these standards.
6.1.2.1 Standard Code 2 of 5
[zint -b C25STANDARD -d "9212320967"]
Also known as Code 2 of 5 Matrix, this is a self-checking code used in
industrial applications and photo development. Standard Code 2 of 5 will encode
numeric input (digits 0-9) up to a maximum of 112 digits. No check digit is
added by default. To add a check digit, set --vers=1 (API option_2 = 1). To add
a check digit but not show it in the Human Readable Text, set --vers=2 (API
option_2 = 2).
2019-12-06 08:47:35 +13:00
6.1.2.2 IATA Code 2 of 5
[zint -b C25IATA -d "9212320967"]
Used for baggage handling in the air-transport industry by the International Air
Transport Agency, this self-checking code will encode numeric input (digits 0-9)
up to a maximum of 80 digits. No check digit is added by default, but can be set
the same as for 6.1.2.1 Standard Code 2 of 5.
2019-12-06 08:47:35 +13:00
6.1.2.3 Industrial Code 2 of 5
[zint -b C25IND -d "9212320967"]
Industrial Code 2 of 5 can encode numeric input (digits 0-9) up to a maximum of
79 digits. No check digit is added by default, but can be set the same as for
6.1.2.1 Standard Code 2 of 5.
2019-12-06 08:47:35 +13:00
6.1.2.4 Interleaved Code 2 of 5 (ISO 16390)
[zint -b C25INTER --compliantheight -d "9212320967"]
This self-checking symbology encodes pairs of numbers, and so can only encode an
even number of digits (0-9). If an odd number of digits is entered a leading
zero is added by Zint. A maximum of 62 pairs (124 digits) can be encoded. No
check digit is added by default, but can be set the same as for 6.1.2.1 Standard
Code 2 of 5.
2019-12-06 08:47:35 +13:00
6.1.2.5 Code 2 of 5 Data Logic
[zint -b C25LOGIC -d "9212320967"]
Data Logic does not include a check digit by default and can encode numeric
input (digits 0-9) up to a maximum of 113 digits. Check digit options are the
same as for 6.1.2.1 Standard Code 2 of 5.
2019-12-06 08:47:35 +13:00
6.1.2.6 ITF-14
[zint -b ITF14 --compliantheight -d "9212320967145"]
ITF-14, also known as UPC Shipping Container Symbol or Case Code, is based on
Interleaved Code 2 of 5 and requires a 13-digit numeric input (digits 0-9). One
2019-12-06 08:47:35 +13:00
modulo-10 check digit is added by Zint.
If no border option is specified Zint defaults to adding a bounding box with a
2020-08-09 20:22:35 +12:00
border width of 5. This behaviour can be overridden by using the --bind option
(API output_options |= BARCODE_BIND). Similarly the border width can be
overridden using --border (API border_width). If a symbol with no border is
required this can be achieved by explicitly setting the border type to box (or
bind or bindtop) and leaving the border width 0.
[zint -b ITF14 --box --compliantheight -d "9212320967145"]
2019-12-06 08:47:35 +13:00
6.1.2.7 Deutsche Post Leitcode
[zint -b DPLEIT -d "9212320967145"]
2019-12-06 08:47:35 +13:00
Leitcode is based on Interleaved Code 2 of 5 and is used by Deutsche Post for
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
routing purposes. Leitcode requires a 13-digit numerical input to which Zint
adds a check digit.
2019-12-06 08:47:35 +13:00
6.1.2.8 Deutsche Post Identcode
[zint -b DPIDENT -d "91232096712"]
2019-12-06 08:47:35 +13:00
Identcode is based on Interleaved Code 2 of 5 and is used by Deutsche Post for
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
identification purposes. Identcode requires an 11-digit numerical input to which
Zint adds a check digit.
2019-12-06 08:47:35 +13:00
6.1.3 UPC (Universal Product Code) (ISO 15420)
2019-12-06 08:47:35 +13:00
6.1.3.1 UPC Version A
[zint -b UPCA --compliantheight -d "72527270270"]
2019-12-06 08:47:35 +13:00
UPC-A is used in the United States for retail applications. The symbol requires
an 11-digit article number. The check digit is calculated by Zint. In addition
2019-12-06 08:47:35 +13:00
EAN-2 and EAN-5 add-on symbols can be added using the + character. For example,
to draw a UPC-A symbol with the data 72527270270 with an EAN-5 add-on showing
the data 12345 use the command:
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
zint -b UPCA -d "72527270270+12345"
2019-12-06 08:47:35 +13:00
or using the API encode a data string with the + character included:
2019-12-06 08:47:35 +13:00
my_symbol->symbology = BARCODE_UPCA;
error = ZBarcode_Encode_and_Print(my_symbol, "72527270270+12345", 0, 0);
[zint -b UPCA --compliantheight -d "72527270270+12345"]
2019-12-06 08:47:35 +13:00
If your input data already includes the check digit symbology BARCODE_UPCA_CHK
(35) can be used which takes a 12-digit input and validates the check digit
before encoding.
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
A quiet zone indicator can be added to the HRT by setting --guardwhitespace (API
output_options |= EANUPC_GUARD_WHITESPACE). For UPC, this is only relevant when
there is add-on:
zint -b UPCA -d "72527270270+12345" --guardwhitespace
or using the API:
my_symbol->symbology = BARCODE_UPCA;
my_symbol->output_options |= EANUPC_GUARD_WHITESPACE;
error = ZBarcode_Encode_and_Print(my_symbol, "72527270270+12345", 0, 0);
[zint -b UPCA --compliantheight -d "72527270270+12345" --guardwhitespace]
You can adjust the gap between the main symbol and an add-on in integral
multiples of the X-dimension by setting --addongap (API option_2) to a value
between 9 (default) and 12. The height in X-dimensions that the guard bars
descend below the main bars can be adjusted by setting --guarddescent (API
guard_descent) to a value between 0 and 20 (default 5).
2019-12-06 08:47:35 +13:00
6.1.3.2 UPC Version E
[zint -b UPCE --compliantheight -d "1123456"]
2019-12-06 08:47:35 +13:00
UPC-E is a zero-compressed version of UPC-A developed for smaller packages. The
code requires a 6-digit article number (digits 0-9). The check digit is
2019-12-06 08:47:35 +13:00
calculated by Zint. EAN-2 and EAN-5 add-on symbols can be added using the +
character as with UPC-A. In addition Zint also supports Number System 1 encoding
by entering a 7-digit article number starting with the digit 1. For example:
2019-12-06 08:47:35 +13:00
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
zint -b UPCE -d "1123456"
2019-12-06 08:47:35 +13:00
or
my_symbol->symbology = BARCODE_UPCE;
error = ZBarcode_Encode_and_Print(my_symbol, "1123456", 0, 0);
2019-12-06 08:47:35 +13:00
If your input data already includes the check digit symbology BARCODE_UPCE_CHK
(38) can be used which takes a 7 or 8-digit input and validates the check digit
before encoding.
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
As with UPC-A, a quiet zone indicator can be added when there is an add-on by
setting --guardwhitespace (API output_options |= EANUPC_GUARD_WHITESPACE):
zint -b UPCE -d "1123456+12" --guardwhitespace
[zint -b UPCE --compliantheight -d "1123456+12" --guardwhitespace]
You can adjust the gap between the main symbol and an add-on in integral
multiples of the X-dimension by setting --addongap (API option_2) to a value
between 7 (default) and 12. The height in X-dimensions that the guard bars
descend below the main bars can be adjusted by setting --guarddescent (API
guard_descent) to a value between 0 and 20 (default 5).
6.1.4 EAN (European Article Number) (ISO 15420)
2019-12-06 08:47:35 +13:00
6.1.4.1 EAN-2, EAN-5, EAN-8 and EAN-13
[zint -b EANX --compliantheight -d "4512345678906"]
The EAN system is used in retail across Europe and includes standards for EAN-2,
EAN-5, EAN-8 and EAN-13 which encode 2, 5, 7 or 12-digit numbers respectively.
Zint will decide which symbology to use depending on the length of the input
data. In addition EAN-2 and EAN-5 add-on symbols can be added to EAN-8 and
EAN-13 symbols using the + character as with UPC symbols. For example:
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
zint -b EANX -d "54321"
[zint -b EANX --compliantheight -d "54321"]
2019-12-06 08:47:35 +13:00
will encode a stand-alone EAN-5, whereas
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
zint -b EANX -d "7432365+54321"
2019-12-06 08:47:35 +13:00
will encode an EAN-8 symbol with an EAN-5 add-on. As before these results can be
achieved using the API:
2019-12-06 08:47:35 +13:00
my_symbol->symbology = BARCODE_EANX;
2019-12-06 08:47:35 +13:00
error = ZBarcode_Encode_and_Print(my_symbol, "54321", 0, 0);
2019-12-06 08:47:35 +13:00
error = ZBarcode_Encode_and_Print(my_symbol, "7432365+54321", 0, 0);
[zint -b EANX --compliantheight -d "7432365+54321"]
2019-12-06 08:47:35 +13:00
All of the EAN symbols include check digits which are added by Zint.
If you are encoding an EAN-8 or EAN-13 symbol and your data already includes the
check digit then you can use symbology BARCODE_EANX_CHK (14) which takes an 8 or
13-digit input and validates the check digit before encoding.
Options to add quiet zone indicators and to adjust the add-on gap and the guard
bar descent height are the same as for 6.1.3.2 UPC Version E. For instance:
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
zint -b EANX_CHK -d "74323654" --guardwhitespace
[zint -b EANX_CHK --compliantheight -d "74323654" guardwhitespace]
2019-12-06 08:47:35 +13:00
6.1.4.2 SBN, ISBN and ISBN-13
[zint -b ISBNX --compliantheight -d "9789295055124"]
EAN-13 symbols (also known as Bookland EAN-13) can also be produced from 9-digit
SBN, 10-digit ISBN or 13-digit ISBN-13 data. The relevant check digit needs to
be present in the input data and will be verified before the symbol is
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
generated.
As with EAN-13, a quiet zone indicator can be added using --guardwhitespace:
[zint -b ISBNX --compliantheight -d "9789295055124" --guardwhitespace]
EAN-2 and EAN-5 add-on symbols can be added using the + character, and there are
options to adjust the add-on gap and the guard bar descent height - see 6.1.3.2
UPC Version E.
2019-12-06 08:47:35 +13:00
6.1.5 Plessey
6.1.5.1 UK Plessey
[zint -b PLESSEY -d "C64"]
2019-12-06 08:47:35 +13:00
Also known as Plessey Code, this symbology was developed by the Plessey Company
Ltd. in the UK. The symbol can encode data consisting of digits (0-9) or letters
A-F up to a maximum of 67 characters and includes a hidden CRC check digit.
6.1.5.2 MSI Plessey
[zint -b MSI_PLESSEY -d "6502" --vers=2]
2019-12-06 08:47:35 +13:00
Based on Plessey and developed by MSI Data Corporation, MSI Plessey can encode
numeric (digits 0-9) input of up to 92 digits. It has a range of check digit
options that are selectable by setting --vers (API option_2), shown in the table
below:
Value Check Digits
------- -----------------------------
0 None
1 Modulo-10 (Luhn)
2 Modulo-10 & Modulo-10
3 Modulo-11 (IBM)
4 Modulo-11 (IBM) & Modulo-10
5 Modulo-11 (NCR)
6 Modulo-11 (NCR) & Modulo-10
: Table : MSI Plessey Check Digit Options:
2019-12-06 08:47:35 +13:00
To not show the check digit or digits in the Human Readable Text, add 10 to the
--vers value. For example --vers=12 (API option_2 = 12) will add two hidden
modulo-10 check digits.
6.1.6 Telepen
6.1.6.1 Telepen Alpha
[zint -b TELEPEN --compliantheight -d "Z80"]
Telepen Alpha was developed by SB Electronic Systems Limited and can encode
ASCII text input, up to a maximum of 69 characters. Telepen includes a hidden
modulo-127 check digit, added by Zint.
2019-12-06 08:47:35 +13:00
6.1.6.2 Telepen Numeric
[zint -b TELEPEN_NUM --compliantheight -d "466X33"]
2019-12-06 08:47:35 +13:00
Telepen Numeric allows compression of numeric data into a Telepen symbol. Data
can consist of pairs of numbers or pairs consisting of a numerical digit
followed an X character. For example: 466333 and 466X33 are valid codes whereas
46X333 is not (the digit pair "X3" is not valid). Up to 136 digits can be
encoded. Telepen Numeric includes a hidden modulo-127 check digit which is added
by Zint.
2019-12-06 08:47:35 +13:00
6.1.7 Code 39
6.1.7.1 Standard Code 39 (ISO 16388)
[zint -b CODE39 --compliantheight -d "1A" --vers=1]
Standard Code 39 was developed in 1974 by Intermec. Input data can be up to 86
characters in length and can include the characters 0-9, A-Z, dash (-), full
stop (.), space, asterisk (*), dollar ($), slash (/), plus (+) and percent (%).
The standard does not require a check digit but a modulo-43 check digit can be
added if desired by setting --vers=1 (API option_2 = 1). To add a check digit
but not show it in the Human Readable Text, set --vers=2 (API option_2 = 2).
6.1.7.2 Extended Code 39
[zint -b EXCODE39 --compliantheight -d "123.45$@fd"]
2019-12-06 08:47:35 +13:00
Also known as Code 39e and Code39+, this symbology expands on Standard Code 39
to provide support for the full 7-bit ASCII character set. The check digit
options are the same as for 6.1.7.1 Standard Code 39 (ISO 16388).
6.1.7.3 Code 93
[zint -b CODE93 --compliantheight -d "C93"]
2019-12-06 08:47:35 +13:00
A variation of Extended Code 39, Code 93 also supports full ASCII text,
accepting up to 123 characters. Two check characters are added by Zint. By
default these check characters are not shown in the Human Readable Text, but may
be shown by setting --vers=1 (API option_2 = 1).
6.1.7.4 PZN (Pharmazentralnummer)
[zint -b PZN --compliantheight -d "2758089"]
2019-12-06 08:47:35 +13:00
PZN is a Code 39 based symbology used by the pharmaceutical industry in Germany.
PZN encodes a 7-digit number to which Zint will add a modulo-11 check digit
(PZN8). Input less than 7 digits will be zero-filled. An 8-digit input can be
supplied in which case Zint will validate the check digit.
To encode a PZN7 (obsolete since 2013) instead set --vers=1 (API option_2 = 1)
and supply up to 7 digits. As with PZN8, a modulo-11 check digit will be added
or if 7 digits supplied the check digit validated.
2019-12-06 08:47:35 +13:00
6.1.7.5 LOGMARS
[zint -b LOGMARS --compliantheight -d "12345/ABCDE" --vers=1]
2019-12-06 08:47:35 +13:00
LOGMARS (Logistics Applications of Automated Marking and Reading Symbols) is a
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
variation of the Code 39 symbology used by the U.S. Department of Defense.
LOGMARS encodes the same character set as 6.1.7.1 Standard Code 39 (ISO 16388),
and the check digit options are also the same. Input is restricted to a maximum
of 30 characters.
6.1.7.6 Code 32
[zint -b CODE32 --compliantheight -d "14352312"]
A variation of Code 39 used by the Italian Ministry of Health (“Ministero della
Sanità”) for encoding identifiers on pharmaceutical products. This symbology
requires a numeric input up to 8 digits in length. A check digit is added by
Zint.
2019-12-06 08:47:35 +13:00
6.1.7.7 HIBC Code 39
[zint -b HIBC_39 --compliantheight -d "14352312"]
This variant adds a leading '+' character and a trailing modulo-49 check digit
to a standard Code 39 symbol as required by the Health Industry Barcode
standards.
6.1.7.8 Vehicle Identification Number (VIN)
[zint -b VIN -d "2FTPX28L0XCA15511" --vers=1]
2019-12-06 08:47:35 +13:00
A variation of Code 39 that for vehicle identification numbers used in North
America (first character '1' to '5') has a check character verification stage. A
17 character input (0-9, and A-Z excluding 'I', 'O' and 'Q') is required. An
invisible Import character prefix 'I' can be added by setting --vers=1 (API
option_2 = 1).
6.1.8 Codabar (EN 798)
[zint -b CODABAR --compliantheight -d "A37859B"]
2019-12-06 08:47:35 +13:00
Also known as NW-7, Monarch, ABC Codabar, USD-4, Ames Code and Code 27, this
symbology was developed in 1972 by Monarch Marketing Systems for retail
purposes. The American Blood Commission adopted Codabar in 1977 as the standard
symbology for blood identification. Codabar can encode up to 103 characters
2019-12-06 08:47:35 +13:00
starting and ending with the letters A-D and containing between these letters
the numbers 0-9, dash (-), dollar ($), colon (:), slash (/), full stop (.) or
plus (+). No check character is generated by default, but a modulo-16 one can be
added by setting --vers=1 (API option_2 = 1). To have the check character appear
in the Human Readable Text, set --vers=2 (API option_2 = 2).
6.1.9 Pharmacode
[zint -b PHARMA --compliantheight -d "130170"]
2019-12-06 08:47:35 +13:00
Developed by Laetus, Pharmacode is used for the identification of
pharmaceuticals. The symbology is able to encode whole numbers between 3 and
131070.
6.1.10 Code 128
6.1.10.1 Standard Code 128 (ISO 15417)
[zint -b CODE128 --bind -d "130170X178"]
2019-12-06 08:47:35 +13:00
One of the most ubiquitous one-dimensional barcode symbologies, Code 128 was
developed in 1981 by Computer Identics. This symbology supports full ASCII text
and uses a three-Code Set system to compress the data into a smaller symbol.
Zint automatically switches between Code Sets A, B and C (but see following) and
adds a hidden modulo-103 check digit.
Manual switching of Code Sets is possible using the --extraesc option (API
input_mode |= EXTRA_ESCAPE_MODE) and the Code 128-specific escapes \^A, \^B,
\^C. For instance the following will force switching to Code Set B for the data
"5678" (normally Code Set C would be used throughout):
zint -b CODE128 -d "1234\^B5678" --extraesc
The manually selected Code Set will apply until the next Code Set escape
sequence, with the exception that data that cannot be represented in that Code
Set will be switched as appropriate. If the data contains a special code
sequence, it can be escaped by doubling the caret (^). For instance
zint -b CODE128 -d "\^AABC\^^BDEF" --extraesc
will encode the data "ABC\^BDEF" in Code Set A.
Code 128 is the default barcode symbology used by Zint. In addition Zint
supports the encoding of ISO/IEC 8859-1 (non-English) characters in Code 128
symbols. The ISO/IEC 8859-1 character set is shown in Annex A.2 Latin Alphabet
No. 1 (ISO/IEC 8859-1).
Zint can encode a maximum of 99 symbol characters, which allows for e.g. 198
all-numeric characters.
6.1.10.2 Code 128 Suppress Code Set C (Code Sets A and B only)
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
[zint -b CODE128AB -d "130170X178"]
It is sometimes advantageous to stop Code 128 from using Code Set C which
compresses numerical data. The BARCODE_CODE128AB[14] variant (symbology 60)
suppresses Code Set C in favour of Code Sets A and B.
Note that the special escapes to manually switch Code Sets mentioned above are
not available for this variant (nor for any other).
6.1.10.3 GS1-128
[zint -b GS1_128 --compliantheight -d "[01]98898765432106[3202]012345[15]991231"
]
A variation of Code 128 previously known as UCC/EAN-128, this symbology is
defined by the GS1 General Specifications. Application Identifiers (AIs) should
be entered using [square bracket] notation. These will be converted to
parentheses (round brackets) for the Human Readable Text. This will allow round
brackets to be used in the data strings to be encoded.
For compatibility with data entry in other systems, if the data does not include
round brackets, the option --gs1parens (API input_mode |= GS1PARENS_MODE) may be
used to signal that AIs are encased in round brackets instead of square ones.
Fixed length data should be entered at the appropriate length for correct
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
encoding. GS1-128 does not support extended ASCII (ISO/IEC 8859-1) characters.
Check digits for GTIN data AI (01) are not generated and need to be included in
the input data. The following is an example of a valid GS1-128 input:
2019-12-06 08:47:35 +13:00
zint -b 16 -d "[01]98898765432106[3202]012345[15]991231"
2019-12-06 08:47:35 +13:00
or using the --gs1parens option:
zint -b 16 --gs1parens -d "(01)98898765432106(3202)012345(15)991231"
6.1.10.4 EAN-14
[zint -b EAN14 --compliantheight -d "9889876543210"]
A shorter version of GS1-128 which encodes GTIN data only. A 13-digit number is
2019-12-06 08:47:35 +13:00
required. The GTIN check digit and AI (01) are added by Zint.
6.1.10.5 NVE-18 (SSCC-18)
[zint -b NVE18 --compliantheight -d "37612345000001003"]
A variation of Code 128 the Nummer der Versandeinheit standard, also known as
SSCC-18 (Serial Shipping Container Code), includes both a visible modulo-10 and
a hidden modulo-103 check digit. NVE-18 requires a 17-digit numerical input.
Check digits and AI (00) are added by Zint.
2019-12-06 08:47:35 +13:00
6.1.10.6 HIBC Code 128
2019-12-06 08:47:35 +13:00
[zint -b HIBC_128 -d "A123BJC5D6E71"]
This option adds a leading '+' character and a trailing modulo-49 check digit to
a standard Code 128 symbol as required by the Health Industry Barcode standards.
6.1.10.7 DPD Code
[zint -b DPD --compliantheight -d "000393206219912345678101040"]
2022-08-06 10:51:24 +12:00
Another variation of Code 128 as used by DPD (Deutscher Paketdienst). Requires a
27 or 28 character input. For 28 character input, the first character is an
identification tag (Barcode ID), which should usually be "%" (ASCII 37). If 27
characters are supplied, "%" will be prefixed by Zint (except if marked as a
“relabel”, see below). The rest of the 27-character input must be alphanumeric,
and is of the form:
-----------------------------------------------------------------------
Destination Post Tracking Number Service Destination Country
Code Code Code
------------------ ------------------- ----------- --------------------
PPPPPPP (7 TTTTTTTTTTTTTT (14 SSS (3 CCC (3-digit ISO
alphanumerics) alphanumerics) digits) 3166-1)
-----------------------------------------------------------------------
: Table : DPD Input Fields:
A warning will be generated if the Service Code, the Destination Country Code,
or the last 10 characters of the Tracking Number are non-numeric.
Zint formats the Human Readable Text as specified by DPD, leaving out the
identication tag, and adds a modulo-36 check character to the text (not to the
barcode itself), thus:
PPPP PPP TTTT TTTT TTTT TT SSS CCC D
By default a top boundary bar is added, with default width 3X. The width can be
overridden using --border (API border_width). For a symbol with no top boundary
bar, explicitly set the border type to bindtop (or bind or box) and leave the
border width 0.
A DPD Code can be marked as a “relabel” by specifying --vers=1 (API
option_2 = 1), which omits the identification tag and prints the barcode at half
height. In this case, an input of 27 alphanumeric characters is required.
6.1.10.8 UPU S10
[zint -b UPU_S10 --compliantheight -d "EE876543216CA"]
The Universal Postal Union S10 variant of Code 128 encodes 13 characters in the
format "SSNNNNNNNNXCC", where "SS" is a two-character alphabetic service
indicator, "NNNNNNNN" is an 8-digit serial number, "X" is a modulo-11 check
digit, and "CC" is a two-character ISO 3166-1 country code.
The check digit may be omitted in which case Zint will add it. Warnings will be
generated if the service indicator is non-standard or the country code is not
ISO 3361-1.
6.1.11 GS1 DataBar (ISO 24724)
Previously known as RSS (Reduced Spaced Symbology), these symbols are due to
replace GS1-128 symbols in accordance with the GS1 General Specifications. If a
GS1 DataBar symbol is to be printed with a 2D component as specified in ISO/IEC
24723 set --mode=2 (API option_1 = 2). See 6.3 GS1 Composite Symbols (ISO 24723)
to find out how to generate DataBar symbols with 2D components.
6.1.11.1 GS1 DataBar Omnidirectional and GS1 DataBar Truncated
[zint -b DBAR_OMN --compliantheight -d "0950110153001"]
2019-12-06 08:47:35 +13:00
Previously known as RSS-14 this standard encodes a 13-digit item code. A check
digit and Application Identifier of (01) are added by Zint. (A 14-digit code
that appends the check digit may be given, in which case the check digit will be
verified.)
GS1 DataBar Omnidirectional symbols should have a height of 33 or greater. To
produce a GS1 DataBar Truncated symbol set the symbol height to a value between
13 and 32. Truncated symbols may not be scannable by omnidirectional scanners.
[zint -b DBAR_OMN -d "0950110153001" --height=13]
6.1.11.2 GS1 DataBar Limited
[zint -b DBAR_LTD --compliantheight -d "0950110153001"]
2019-12-06 08:47:35 +13:00
Previously known as RSS Limited this standard encodes a 13-digit item code and
can be used in the same way as GS1 DataBar Omnidirectional above. GS1 DataBar
Limited, however, is limited to data starting with digits 0 and 1 (i.e. numbers
in the range 0 to 1999999999999). As with GS1 DataBar Omnidirectional a check
digit and Application Identifier of (01) are added by Zint, and a 14-digit code
may be given in which case the check digit will be verified.
6.1.11.3 GS1 DataBar Expanded
[zint -b DBAR_EXP --compliantheight -d "[01]98898765432106[3202]012345[15]991231
"]
Previously known as RSS Expanded this is a variable length symbology capable of
2019-12-06 08:47:35 +13:00
encoding data from a number of AIs in a single symbol. AIs should be encased in
[square brackets] in the input data, which will be converted to parentheses
(round brackets) before being included in the Human Readable Text attached to
the symbol. This method allows the inclusion of parentheses in the data to be
encoded. If the data does not include parentheses, the AIs may alternatively be
encased in parentheses using the --gs1parens switch. See 6.1.10.3 GS1-128.
GTIN data AI (01) should also include the check digit data as this is not
calculated by Zint when this symbology is encoded. Fixed length data should be
entered at the appropriate length for correct encoding. The following is an
example of a valid GS1 DataBar Expanded input:
2019-12-06 08:47:35 +13:00
zint -b 31 -d "[01]98898765432106[3202]012345[15]991231"
6.1.12 Korea Post Barcode
[zint -b KOREAPOST -d "923457"]
2019-12-06 08:47:35 +13:00
The Korean Postal Barcode is used to encode a 6-digit number and includes one
2019-12-06 08:47:35 +13:00
check digit.
6.1.13 Channel Code
[zint -b CHANNEL -d "453678" --compliantheight]
2019-12-06 08:47:35 +13:00
A highly compressed symbol for numeric data. The number of channels in the
symbol can be between 3 and 8 and this can be specified by setting the value of
the --vers option (API option_2). It can also be determined by the length of the
input data: e.g. a three character input string generates a 4 channel code by
default.
The maximum values permitted depend on the number of channels used as shown in
the table below:
Channels Minimum Value Maximum Value
---------- --------------- ---------------
3 00 26
4 000 292
5 0000 3493
6 00000 44072
7 000000 576688
8 0000000 7742862
: Table : Channel Value Ranges:
2019-12-06 08:47:35 +13:00
6.1.14 BC412 (SEMI T1-95)
[zint -b BC412 -d "AQ45670" --compliantheight]
Designed by IBM for marking silicon wafers, each BC412 character is represented
by 4 bars of a single size, interleaved with 4 spaces of varying sizes that
total 8 (hence 4 bars in 12). Zint implements the SEMI T1-95 standard, where
input must be alphanumeric, excluding the letter O, and must be from 7 to 18
characters in length. A single check character is added by Zint, appearing in
the 2nd character position. Lowercase input is automatically made uppercase.
6.2 Stacked Symbologies
2019-12-06 08:47:35 +13:00
6.2.1 Basic Symbol Stacking
An early innovation to get more information into a symbol, used primarily in the
vehicle industry, is to simply stack one-dimensional codes on top of each other.
This can be achieved at the command prompt by giving more than one set of input
data. For example
zint -d "This" -d "That"
2019-12-06 08:47:35 +13:00
will draw two Code 128 symbols, one on top of the other. The same result can be
achieved using the API by executing the ZBarcode_Encode() function more than
once on a symbol. For example:
my_symbol->symbology = BARCODE_CODE128;
2019-12-06 08:47:35 +13:00
error = ZBarcode_Encode(my_symbol, "This", 0);
2019-12-06 08:47:35 +13:00
error = ZBarcode_Encode(my_symbol, "That", 0);
2019-12-06 08:47:35 +13:00
error = ZBarcode_Print(my_symbol);
2019-12-06 08:47:35 +13:00
[zint -d "This" -d "That"]
Note that the Human Readable Text will be that of the last data, so its best to
use the option --notext (API show_hrt = 0).
The stacked barcode rows can be separated by row separator bars by specifying
--bind (API output_options |= BARCODE_BIND). The height of the row separator
bars in integral multiples of the X-dimension (minimum and default 1, maximum 4)
can be set by --separator (API option_3):
zint --bind --notext --separator=2 -d "This" -d "That"
[zint --notext --bind --separator=2 -d "This" -d "That"]
A more sophisticated method is to use some type of line indexing which indicates
to the barcode reader which order the stacked symbols should be read in. This is
2019-12-06 08:47:35 +13:00
demonstrated by the symbologies below.
6.2.2 Codablock-F
[zint -b CODABLOCKF -d "CODABLOCK F Symbology" --rows=3]
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
This is a stacked symbology based on Code 128 which can encode Latin-1 data up
to a maximum length of 2725 characters. The width of the Codablock-F symbol can
be set using the --cols option (API option_2), to a value between 9 and 67. The
height (number of rows) can be set using the --rows option (API option_1), with
a maximum of 44. Zint does not currently support encoding of GS1 data in
Codablock-F symbols.
A separate symbology ID (BARCODE_HIBC_BLOCKF) can be used to encode Health
Industry Barcode (HIBC) data which adds a leading '+' character and a modulo-49
check digit to the encoded data.
2019-12-06 08:47:35 +13:00
6.2.3 Code 16K (EN 12323)
[zint -b CODE16K --compliantheight -d "ab0123456789"]
Code 16K uses a Code 128 based system which can stack up to 16 rows in a block.
2019-12-06 08:47:35 +13:00
This gives a maximum data capacity of 77 characters or 154 numerical digits and
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
includes two modulo-107 check digits. Code 16K also supports ISO/IEC 8859-1
character encoding in the same manner as Code 128. GS1 data encoding is also
supported. The minimum number of rows to use can be set using the --rows option
(API option_1), with values from 2 to 16.
2019-12-06 08:47:35 +13:00
6.2.4 PDF417 (ISO 15438)
[zint -b PDF417 -d "PDF417"]
2019-12-06 08:47:35 +13:00
Heavily used in the parcel industry, the PDF417 symbology can encode a vast
amount of data into a small space. Zint supports encoding up to the ISO standard
maximum symbol size of 925 codewords which (at error correction level 0) allows
a maximum data size of 1850 text characters, or 2710 digits.
The width of the generated PDF417 symbol can be specified at the command line
using the --cols switch (API option_2) followed by a number between 1 and 30,
the number of rows using the --rows switch (API option_3) followed by a number
between 3 and 90, and the amount of error correction information can be
specified by using the --secure switch (API option_1) followed by a number
between 0 and 8 where the number of codewords used for error correction is
determined by 2^(value + 1). The default level of error correction is determined
by the amount of data being encoded.
This symbology uses Latin-1 character encoding by default but also supports the
ECI encoding mechanism. A separate symbology ID (BARCODE_HIBC_PDF) can be used
to encode Health Industry Barcode (HIBC) data.
2019-12-06 08:47:35 +13:00
For a faster but less optimal encoding, the --fast option (API
input_mode |= FAST_MODE) may be used.
PDF417 supports Structured Append of up to 99,999 symbols and an optional
numeric ID of up to 30 digits, which can be set by using the --structapp option
(see 4.17 Structured Append) (API structapp). The ID consists of up to 10
triplets, each ranging from "000" to "899". For instance "123456789" would be a
valid ID of 3 triplets. However "123456900" would not, as the last triplet "900"
exceeds "899". The triplets are 0-filled, for instance "1234" becomes "123004".
If an ID is not given, no ID is encoded.
6.2.5 Compact PDF417 (ISO 15438)
[zint -b PDF417COMP -d "PDF417"]
Previously known as Truncated PDF417, Compact PDF417 omits some per-row overhead
to produce a narrower but less robust symbol. Options are the same as for PDF417
above.
2019-12-06 08:47:35 +13:00
6.2.6 MicroPDF417 (ISO 24728)
[zint -b MICROPDF417 -d "12345678"]
2019-12-06 08:47:35 +13:00
A variation of the PDF417 standard, MicroPDF417 is intended for applications
where symbol size needs to be kept to a minimum. 34 predefined symbol sizes are
available with 1 - 4 columns and 4 - 44 rows. The maximum amount a MicroPDF417
symbol can hold is 250 alphanumeric characters or 366 digits. The amount of
error correction used is dependent on symbol size. The number of columns used
can be determined using the --cols switch (API option_2) as with PDF417.
This symbology uses Latin-1 character encoding by default but also supports the
ECI encoding mechanism. A separate symbology ID (BARCODE_HIBC_MICPDF) can be
used to encode Health Industry Barcode (HIBC) data. MicroPDF417 supports
FAST_MODE and Structured Append the same as PDF417, for which see details.
2019-12-06 08:47:35 +13:00
6.2.7 GS1 DataBar Stacked (ISO 24724)
6.2.7.1 GS1 DataBar Stacked
[zint -b DBAR_STK --compliantheight -d "9889876543210"]
A stacked variation of the GS1 DataBar Truncated symbol requiring the same input
(see 6.1.11.1 GS1 DataBar Omnidirectional and GS1 DataBar Truncated), this
symbol is the same as the following GS1 DataBar Stacked Omnidirectional symbol
except that its height is reduced and its central separator is a single row,
making it suitable for small items when omnidirectional scanning is not
required. It can be generated with a two-dimensional component to make a
composite symbol.
6.2.7.2 GS1 DataBar Stacked Omnidirectional
[zint -b DBAR_OMNSTK --compliantheight -d "9889876543210"]
2019-12-06 08:47:35 +13:00
A stacked variation of the GS1 DataBar Omnidirectional symbol requiring the same
input (see 6.1.11.1 GS1 DataBar Omnidirectional and GS1 DataBar Truncated). The
data is encoded in two rows of bars with a central 3-row separator. This symbol
can be generated with a two-dimensional component to make a composite symbol.
6.2.7.3 GS1 DataBar Expanded Stacked
[zint -b DBAR_EXPSTK --compliantheight -d "[01]98898765432106[3202]012345[15]991
231"]
2019-12-06 08:47:35 +13:00
A stacked variation of the GS1 DataBar Expanded symbol for smaller packages.
Input is the same as for GS1 DataBar Expanded (see 6.1.11.3 GS1 DataBar
Expanded). In addition the width of the symbol can be altered using the --cols
switch (API option_2). In this case the number of columns (values 1 to 11)
relates to the number of character pairs on each row of the symbol.
Alternatively the --rows switch (API option_3) can be used to specify the
maximum number of rows (values 2 to 11), and the number of columns will be
adjusted accordingly. This symbol can be generated with a two-dimensional
component to make a composite symbol. For symbols with a 2D component the number
of columns must be at least 2.
6.2.8 Code 49
[zint -b CODE49 --compliantheight -d "MULTIPLE ROWS IN CODE 49"]
Developed in 1987 at Intermec, Code 49 is a cross between UPC and Code 39. It is
one of the earliest stacked symbologies and influenced the design of Code 16K a
few years later. It supports full 7-bit ASCII input up to a maximum of 49
characters or 81 numeric digits. GS1 data encoding is also supported. The
minimum number of rows to use can be set using the --rows option (API option_1),
with values from 2 to 8.
2019-12-06 08:47:35 +13:00
6.3 GS1 Composite Symbols (ISO 24723)
GS1 Composite symbols employ a mixture of components to give more comprehensive
2019-12-06 08:47:35 +13:00
information about a product. The permissible contents of a composite symbol is
determined by the terms of the GS1 General Specifications. Composite symbols
2019-12-06 08:47:35 +13:00
consist of a linear component which can be an EAN, UPC, GS1-128 or GS1 DataBar
symbol, a two-dimensional (2D) component which is based on PDF417 or
MicroPDF417, and a separator pattern. The type of linear component to be used is
determined using the -b or --barcode switch (API symbology) as with other
encoding methods. Valid values are shown below.
2019-12-06 08:47:35 +13:00
----------------------------------------------------------------------------
Numeric Name Barcode Name
Value
--------- ------------------------- ----------------------------------------
130 BARCODE_EANX_CC GS1 Composite Symbol with EAN linear
component
131 BARCODE_GS1_128_CC GS1 Composite Symbol with GS1-128 linear
component
132 BARCODE_DBAR_OMN_CC GS1 Composite Symbol with GS1 DataBar
Omnidirectional linear component
133 BARCODE_DBAR_LTD_CC GS1 Composite Symbol with GS1 DataBar
Limited linear component
134 BARCODE_DBAR_EXP_CC GS1 Composite Symbol with GS1 DataBar
Expanded linear component
135 BARCODE_UPCA_CC GS1 Composite Symbol with UPC-A linear
component
136 BARCODE_UPCE_CC GS1 Composite Symbol with UPC-E linear
component
137 BARCODE_DBAR_STK_CC GS1 Composite Symbol with GS1 DataBar
Stacked component
138 BARCODE_DBAR_OMNSTK_CC GS1 Composite Symbol with GS1 DataBar
Stacked Omnidirectional component
139 BARCODE_DBAR_EXPSTK_CC GS1 Composite Symbol with GS1 DataBar
Expanded Stacked component
----------------------------------------------------------------------------
: Table : GS1 Composite Symbology Values:
2019-12-06 08:47:35 +13:00
The data to be encoded in the linear component of a composite symbol should be
entered into a primary string with the data for the 2D component being entered
in the normal way. To do this at the command prompt use the --primary switch
(API primary). For example:
2019-12-06 08:47:35 +13:00
zint -b EANX_CC --mode=1 --primary=331234567890 -d "[99]1234-abcd"
2019-12-06 08:47:35 +13:00
This creates an EAN-13 linear component with the data "331234567890" and a 2D
CC-A (see below) component with the data "(99)1234-abcd". The same results can
be achieved using the API as shown below:
my_symbol->symbology = BARCODE_EANX_CC;
2019-12-06 08:47:35 +13:00
my_symbol->option_1 = 1;
2019-12-06 08:47:35 +13:00
strcpy(my_symbol->primary, "331234567890");
2019-12-06 08:47:35 +13:00
ZBarcode_Encode_and_Print(my_symbol, "[99]1234-abcd", 0, 0);
2019-12-06 08:47:35 +13:00
EAN-2 and EAN-5 add-on data can be used with EAN and UPC symbols using the +
symbol as described in sections 6.1.3 UPC (Universal Product Code) (ISO 15420)
and 6.1.4 EAN (European Article Number) (ISO 15420).
2019-12-06 08:47:35 +13:00
The 2D component of a composite symbol can use one of three systems: CC-A, CC-B
and CC-C, as described below. The 2D component type can be selected
automatically by Zint dependent on the length of the input string. Alternatively
the three methods can be accessed using the --mode prompt (API option_1)
followed by 1, 2 or 3 for CC-A, CC-B or CC-C respectively.
2019-12-06 08:47:35 +13:00
6.3.1 CC-A
[zint -b EANX_CC --compliantheight -d "[99]1234-abcd" --mode=1 --primary=3312345
67890]
This system uses a variation of MicroPDF417 which is optimised to fit into a
small space. The size of the 2D component and the amount of error correction is
2019-12-06 08:47:35 +13:00
determined by the amount of data to be encoded and the type of linear component
which is being used. CC-A can encode up to 56 numeric digits or an alphanumeric
string of shorter length. To select CC-A use --mode=1 (API option_1 = 1).
2019-12-06 08:47:35 +13:00
6.3.2 CC-B
[zint -b EANX_CC --compliantheight -d "[99]1234-abcd" --mode=2 --primary=3312345
67890]
2019-12-06 08:47:35 +13:00
This system uses MicroPDF417 to encode the 2D component. The size of the 2D
component and the amount of error correction is determined by the amount of data
to be encoded and the type of linear component which is being used. CC-B can
encode up to 338 numeric digits or an alphanumeric string of shorter length. To
select CC-B use --mode=2 (API option_1 = 2).
2019-12-06 08:47:35 +13:00
6.3.3 CC-C
[zint -b GS1_128_CC --compliantheight -d "[99]1234-abcd" --mode=3 --primary="[01
]03312345678903"]
2019-12-06 08:47:35 +13:00
This system uses PDF417 and can only be used in conjunction with a GS1-128
linear component. CC-C can encode up to 2361 numeric digits or an alphanumeric
string of shorter length. To select CC-C use --mode=3 (API option_1 = 3).
2019-12-06 08:47:35 +13:00
6.4 Two-Track Symbols
2019-12-06 08:47:35 +13:00
6.4.1 Two-Track Pharmacode
[zint -b PHARMA_TWO --compliantheight -d "29876543"]
Developed by Laetus, Pharmacode Two-Track is an alternative system to Pharmacode
One-Track (see 6.1.9 Pharmacode) used for the identification of pharmaceuticals.
The symbology is able to encode whole numbers between 4 and 64570080.
2019-12-06 08:47:35 +13:00
6.4.2 POSTNET
[zint -b POSTNET --compliantheight -d "12345678901"]
Used by the United States Postal Service until 2009, the POSTNET barcode was
used for encoding zip-codes on mail items. POSTNET uses numerical input data and
includes a modulo-10 check digit. While Zint will encode POSTNET symbols of up
to 38 digits in length, standard lengths as used by USPS were PostNet6 (5-digit
ZIP input), PostNet10 (5-digit ZIP + 4-digit user data) and PostNet12 (5-digit
ZIP + 6-digit user data), and a warning will be issued if the input length is
not one of these.
2019-12-06 08:47:35 +13:00
6.4.3 PLANET
[zint -b PLANET --compliantheight -d "4012345235636"]
2019-12-06 08:47:35 +13:00
Used by the United States Postal Service until 2009, the PLANET (Postal Alpha
Numeric Encoding Technique) barcode was used for encoding routing data on mail
items. PLANET uses numerical input data and includes a modulo-10 check digit.
While Zint will encode PLANET symbols of up to 38 digits in length, standard
lengths used by USPS were Planet12 (11-digit input) and Planet14 (13-digit
input), and as with POSTNET a warning will be issued if the length is not one of
these.
2019-12-06 08:47:35 +13:00
6.4.4 Brazilian CEPNet
[zint -b CEPNET --compliantheight -d "12345678"]
Based on POSTNET, the CEPNet symbol is used by Correios, the Brazilian postal
service, to encode CEP (Código de Endereçamento Postal) numbers on mail items.
Input should consist of eight digits with the check digit being automatically
added by Zint.
2019-12-06 08:47:35 +13:00
6.5 4-State Postal Codes
2019-12-06 08:47:35 +13:00
6.5.1 Australia Post 4-State Symbols
2019-12-06 08:47:35 +13:00
6.5.1.1 Customer Barcodes
[zint -b AUSPOST --compliantheight -d "96184209"]
2019-12-06 08:47:35 +13:00
Australia Post Standard Customer Barcode, Customer Barcode 2 and Customer
Barcode 3 are 37-bar, 52-bar and 67-bar specifications respectively, developed
by Australia Post for printing Delivery Point ID (DPID) and customer information
on mail items. Valid data characters are 0-9, A-Z, a-z, space and hash (#). A
Format Control Code (FCC) is added by Zint and should not be included in the
input data. Reed-Solomon error correction data is generated by Zint. Encoding
behaviour is determined by the length of the input data according to the formula
2022-08-23 03:28:22 +12:00
shown in the following table.
---------------------------------------------------------------
Input Required Input Format Symbol FCC Encoding
Length Length Table
--------- --------------------------- -------- ----- ----------
8 99999999 37-bar 11 None
13 99999999AAAAA 52-bar 59 C
16 9999999999999999 52-bar 59 N
18 99999999AAAAAAAAAA 67-bar 62 C
23 99999999999999999999999 67-bar 62 N
---------------------------------------------------------------
: Table : Australia Post Input Formats:
2019-12-06 08:47:35 +13:00
6.5.1.2 Reply Paid Barcode
[zint -b AUSREPLY --compliantheight -d "12345678"]
2019-12-06 08:47:35 +13:00
A Reply Paid version of the Australia Post 4-State Barcode (FCC 45) which
requires an 8-digit DPID input.
6.5.1.3 Routing Barcode
[zint -b AUSROUTE --compliantheight -d "34567890"]
2019-12-06 08:47:35 +13:00
A Routing version of the Australia Post 4-State Barcode (FCC 87) which requires
an 8-digit DPID input.
6.5.1.4 Redirect Barcode
[zint -b AUSREDIRECT --compliantheight -d "98765432"]
2019-12-06 08:47:35 +13:00
A Redirection version of the Australia Post 4-State Barcode (FCC 92) which
requires an 8-digit DPID input.
6.5.2 Dutch Post KIX Code
[zint -b KIX --compliantheight -d "2500GG30250"]
This symbology is used by Royal Dutch TPG Post (Netherlands) for Postal code and
automatic mail sorting. Data input can consist of numbers 0-9 and letters A-Z
and needs to be 11 characters in length. No check digit is included.
2019-12-06 08:47:35 +13:00
6.5.3 Royal Mail 4-State Customer Code (RM4SCC)
[zint -b RM4SCC --compliantheight -d "W1J0TR01"]
2019-12-06 08:47:35 +13:00
The RM4SCC standard is used by the Royal Mail in the UK to encode postcode and
customer data on mail items. Data input can consist of numbers 0-9 and letters
A-Z and usually includes delivery postcode followed by house number. For example
"W1J0TR01" for 1 Piccadilly Circus in London. Check digit data is generated by
Zint.
2019-12-06 08:47:35 +13:00
6.5.4 Royal Mail 4-State Mailmark
[zint -b MAILMARK_4S --compliantheight -d "1100000000000XY11"]
Developed in 2014 as a replacement for RM4SCC this 4-state symbol includes Reed-
Solomon error correction. Input is a pre-formatted alphanumeric string of 22
(for Barcode C) or 26 (for Barcode L) characters, producing a symbol with 66 or
78 bars respectively. The rules for the input data are complex, as summarized in
the following table.
----------------------------------------------------------------------------
Format Version Class Supply Chain ID Item ID Destination+DPS
ID
-------- --------- ------------ ---------------- --------- -----------------
1 digit 1 digit 1 alphanum. 2 digits (C) or 8 digits 9 alphanumerics
(0-4) (0-3) (0-9A-E) 6 digits (L) (1 of 6 patterns)
----------------------------------------------------------------------------
: Table : Royal Mail 4-State Mailmark Input Fields:
The 6 Destination+DPS (Destination Post Code plus Delivery Point Suffix)
patterns are:
----------- ----------- -----------
FNFNLLNLS FFNNLLNLS FFNNNLLNL
FFNFNLLNL FNNLLNLSS FNNNLLNLS
----------- ----------- -----------
: Table : Royal Mail Mailmark Destination+DPS Patterns:
where 'F' stands for full alphabetic (A-Z), 'L' for limited alphabetic (A-Z less
'CIKMOV'), 'N' for numeric (0-9), and 'S' for space.
Four of the permitted patterns include a number of trailing space characters -
these will be appended by Zint if not included in the input data.
2019-12-06 08:47:35 +13:00
For the two-dimensional Data Matrix-based version, see 6.6.2 Royal Mail 2D
Mailmark (CMDM) (Data Matrix).
6.5.5 USPS Intelligent Mail
[zint -b USPS_IMAIL --compliantheight -d "01234567094987654321-01234"]
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
Also known as the OneCode barcode and used in the U.S. by the United States
Postal Service (USPS), the Intelligent Mail system replaced the POSTNET and
PLANET symbologies in 2009. Intelligent Mail is a fixed length (65-bar) symbol
which combines routing and customer information in a single symbol. Input data
consists of a 20-digit tracking code, followed by a dash (-), followed by a
delivery point zip-code which can be 0, 5, 9 or 11 digits in length. For example
all of the following inputs are valid data entries:
2019-12-06 08:47:35 +13:00
- "01234567094987654321"
- "01234567094987654321-01234"
- "01234567094987654321-012345678"
- "01234567094987654321-01234567891"
2019-12-06 08:47:35 +13:00
6.5.6 Japanese Postal Code
[zint -b JAPANPOST --compliantheight -d "15400233-16-4-205"]
Used for address data on mail items for Japan Post. Accepted values are 0-9, A-Z
and dash (-). A modulo 19 check digit is added by Zint.
2019-12-06 08:47:35 +13:00
6.5.7 DAFT Code
[zint -b DAFT -d "AAFDTTDAFADTFTTFFFDATFTADTTFFTDAFAFDTF" --height=8.494 --vers=
256]
This is a method for creating 4-state codes where the data encoding is provided
by an external program. Input data should consist of the letters 'D', 'A', 'F'
and 'T' where these refer to descender, ascender, full (ascender and descender)
and tracker (neither ascender nor descender) respectively. All other characters
are invalid. The ratio of the tracker size to full height can be given in
thousandths (permille) using the --vers option (API option_2). The default value
is 250 (25%).
For example the following
zint -b DAFT -d AAFDTTDAFADTFTTFFFDATFTADTTFFTDAFAFDTF --height=8.494 --vers
=256
produces the same barcode (see 6.5.3 Royal Mail 4-State Customer Code (RM4SCC))
as
zint -b RM4SCC --compliantheight -d "W1J0TR01"
6.6 Matrix Symbols
6.6.1 Data Matrix (ISO 16022)
[zint -b HIBC_DM -d "/ACMRN123456/V200912190833" --fast --square]
2019-12-06 08:47:35 +13:00
Also known as Semacode this symbology was developed in 1989 by Acuity CiMatrix
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
in partnership with the U.S. DoD and NASA. The symbol can encode a large amount
of data in a small area. Data Matrix encodes characters in the Latin-1 set by
default but also supports encoding in other character sets using the ECI
mechanism. It can also encode GS1 data. The size of the generated symbol can be
adjusted using the --vers option (API option_2) as shown in the table below. A
separate symbology ID (BARCODE_HIBC_DM) can be used to encode Health Industry
Barcode (HIBC) data. Note that only ECC200 encoding is supported, the older
standards have now been removed from Zint.
2019-12-06 08:47:35 +13:00
Input Symbol Size Input Symbol Size Input Symbol Size
------- ------------- -- ------- ------------- -- ------- -------------
1 10 x 10 11 36 x 36 21 104 x 104
2 12 x 12 12 40 x 40 22 120 x 120
3 14 x 14 13 44 x 44 23 132 x 132
4 16 x 16 14 48 x 48 24 144 x 144
5 18 x 18 15 52 x 52 25 8 x 18
6 20 x 20 16 64 x 64 26 8 x 32
7 22 x 22 17 72 x 72 28 12 x 26
8 24 x 24 18 80 x 80 28 12 x 36
9 26 x 26 19 88 x 88 29 16 x 36
10 32 x 32 20 96 x 96 30 16 x 48
: Table : Data Matrix Sizes:
2019-12-06 08:47:35 +13:00
The largest version 24 (144 x 144) can encode 3116 digits, around 2335
alphanumeric characters, or 1555 bytes of data.
2019-12-06 08:47:35 +13:00
When using automatic symbol sizes you can force Zint to use square symbols
(versions 1-24) at the command line by using the option --square (API
option_3 = DM_SQUARE).
2019-12-06 08:47:35 +13:00
Data Matrix Rectangular Extension (ISO/IEC 21471) codes may be generated with
the following values as before:
2019-12-06 08:47:35 +13:00
Input Symbol Size Input Symbol Size
------- ------------- -- ------- -------------
31 8 x 48 40 20 x 36
32 8 x 64 41 20 x 44
33 8 x 80 42 20 x 64
34 8 x 96 43 22 x 48
35 8 x 120 44 24 x 48
36 8 x 144 45 24 x 64
37 12 x 64 46 26 x 40
38 12 x 88 47 26 x 48
39 16 x 64 48 26 x 64
: Table : DMRE Sizes:
2019-12-06 08:47:35 +13:00
DMRE symbol sizes may be activated in automatic size mode using the option
--dmre (API option_3 = DM_DMRE).
2019-12-06 08:47:35 +13:00
GS1 data may be encoded using FNC1 (default) or GS (Group Separator, ASCII 29)
as separator. Use the option --gssep to change to GS (API
output_options |= GS1_GS_SEPARATOR).
By default Zint uses a “de facto” codeword placement for symbols of size 144 x
144 (version 24). To override this and use the now clarified ISO/IEC standard
placement, use option --dmiso144 (API option_3 |= DM_ISO_144).
For a faster but less optimal encoding, the --fast option (API
input_mode |= FAST_MODE) may be used.
Data Matrix supports Structured Append of up to 16 symbols and a numeric ID
(file identifications), which can be set by using the --structapp option (see
4.17 Structured Append) (API structapp). The ID consists of 2 numbers ID1 and
ID2, each of which can range from 1 to 254, and is specified as the single
number ID1 * 1000 + ID2, so for instance ID1 "123" and ID2 "234" would be given
as "123234". Note that both ID1 and ID2 must be non-zero, so e.g. "123000" or
"000123" would be invalid IDs. If an ID is not given it defaults to "001001".
2019-12-06 08:47:35 +13:00
6.6.2 Royal Mail 2D Mailmark (CMDM) (Data Matrix)
[zint -b MAILMARK_2D -d "JGB 01Z999999900000001EC1A1AA1A0SN35TQ" --vers=30]
This variant of Data Matrix, also known as “Complex Mail Data Mark” (CMDM), was
introduced by Royal Mail along with 6.5.4 Royal Mail 4-State Mailmark, and
offers space for customer data following an initial pre-formatted 45 character
section, as summarized below.
Field Name Length Values
------------------ ------------- --------------------------------
UPU Country ID 4 "JGB "
Information Type 1 Alphanumeric
Version ID 1 "1"
Class 1 Alphanumeric
Supply Chain ID 7 Numeric
Item ID 8 Numeric
Destination+DPS 9 Alphanumeric (1 of 6 patterns)
Service Type 1 Numeric
RTS Post Code 7 Alphanumeric (1 of 6 patterns)
Reserved 6 Spaces
Customer Data 6, 45 or 29 Anything (Latin-1)
: Table : Royal Mail 2D Mailmark Input Fields:
The 6 Destination+DPS (Destination Post Code plus Delivery Point Suffix)
patterns are the same as for the 4-state - see Table
: Royal Mail Mailmark Destination+DPS Patterns. The 6 RTS (Return to Sender)
Post Code patterns are the same also except without the additional DPS 'NL',
i.e.
--------- --------- ---------
FNFNLLS FFNNLLS FFNNNLL
FFNFNLL FNNLLSS FNNNLLS
--------- --------- ---------
: Table : Royal Mail 2D Mailmark RTS Patterns:
where 'F' is full alphabetic (A-Z), 'L' limited alphabetic (A-Z less 'CIKMOV'),
'N' numeric (0-9), and 'S' space.
Three sizes are defined, one rectangular, with varying maximum amounts of
optional customer data:
Name Size Customer Data Zint Version
--------- --------- --------------- --------------
Type 7 24 x 24 6 characters 8
Type 9 32 x 32 45 characters 10
Type 29 16 x 48 29 characters 30
: Table : Royal Mail 2D Mailmark Sizes:
Zint will automatically select a size based on the amount of customer data, or
it can be specified using the --vers option (API option_2), which takes the Zint
version number (one more than the Royal Mail Type number). Zint will prefix the
input data with "JGB " if its missing, and also space-pad the input if the
customer data is absent or falls short. As with Data Matrix, the rectangular
symbol Type 29 can be excluded from automatic size selection by using the option
--square (API option_3 = DM_SQUARE).
GS1 data, the ECI mechanism, and Structured Append are not supported.
6.6.3 QR Code (ISO 18004)
[zint -b QRCODE -d "QR Code Symbol" --mask=5]
2019-12-06 08:47:35 +13:00
Also known as Quick Response Code this symbology was developed by Denso. Four
levels of error correction are available using the --secure option (API
option_1) as shown in the following table.
Input ECC Level Error Correction Capacity Recovery Capacity
------- ----------- --------------------------- -------------------
1 L Approx 20% of symbol Approx 7%
2 M Approx 37% of symbol Approx 15%
3 Q Approx 55% of symbol Approx 25%
4 H Approx 65% of symbol Approx 30%
: Table : QR Code ECC Levels:
The size of the symbol can be specified by setting the --vers option (API
option_2) to the QR Code version required (1-40). The size of symbol generated
2019-12-06 08:47:35 +13:00
is shown in the table below.
Input Symbol Size Input Symbol Size Input Symbol Size
------- ------------- -- ------- ------------- -- ------- -------------
1 21 x 21 15 77 x 77 29 133 x 133
2 25 x 25 16 81 x 81 30 137 x 137
3 29 x 29 17 85 x 85 31 141 x 141
4 33 x 33 18 89 x 89 32 145 x 145
5 37 x 37 19 93 x 93 33 149 x 149
6 41 x 41 20 97 x 97 34 153 x 153
7 45 x 45 21 101 x 101 35 157 x 157
8 49 x 49 22 105 x 105 36 161 x 161
9 53 x 53 23 109 x 109 37 165 x 165
10 57 x 57 24 113 x 113 38 169 x 169
11 61 x 61 25 117 x 117 39 173 x 173
12 65 x 65 26 121 x 121 40 177 x 177
13 69 x 69 27 125 x 125
14 73 x 73 28 129 x 129
: Table : QR Code Sizes:
The maximum capacity of a QR Code symbol (version 40) is 7089 numeric digits,
2019-12-06 08:47:35 +13:00
4296 alphanumeric characters or 2953 bytes of data. QR Code symbols can also be
used to encode GS1 data. QR Code symbols can by default encode either characters
in the Latin-1 set or Kanji, Katakana and ASCII characters which are members of
the Shift JIS encoding scheme. In addition QR Code supports other character sets
using the ECI mechanism. Input should usually be entered as UTF-8 with
conversion to Latin-1 or Shift JIS being carried out by Zint. A separate
symbology ID (BARCODE_HIBC_QR) can be used to encode Health Industry Barcode
(HIBC) data.
Non-ASCII data density may be maximized by using the --fullmultibyte switch (API
option_3 = ZINT_FULL_MULTIBYTE), but check that your barcode reader supports
this before using.
QR Code has eight different masks designed to minimize unwanted patterns. The
best mask to use is selected automatically by Zint but may be manually specified
by using the --mask switch with values 0-7, or in the API by setting
option_3 = (N + 1) << 8 where N is 0-7. To use with ZINT_FULL_MULTIBYTE set
option_3 = ZINT_FULL_MULTIBYTE | (N + 1) << 8
The --fast option (API input_mode |= FAST_MODE) may be used when leaving Zint to
automatically select a mask to reduce the number of masks to try to four (0, 2,
4, 7).
QR Code supports Structured Append of up to 16 symbols and a numeric ID
(parity), which can be set by using the --structapp option (see 4.17 Structured
Append) (API structapp). The parity ID ranges from 0 (default) to 255, and for
full compliance should be set to the value obtained by XOR-ing together each
byte of the complete data forming the sequence. Currently this calculation must
be done outside of Zint.
6.6.4 Micro QR Code (ISO 18004)
[zint -b MICROQR -d "01234567"]
A miniature version of the QR Code symbol for short messages, Micro QR Code
symbols can encode either Latin-1 characters or Shift JIS characters. Input
should be entered as a UTF-8 stream with conversion to Latin-1 or Shift JIS
being carried out automatically by Zint. A preferred symbol size can be selected
by using the --vers option (API option_2), as shown in the table below. Note
that versions M1 and M2 have restrictions on what characters can be encoded.
------------------------------------------------------------------
Input Version Symbol Size Allowed Characters
------- --------- ------------- ----------------------------------
1 M1 11 x 11 Numeric only
2 M2 13 x 13 Numeric, uppercase letters, space,
and the characters "$%*+-./:"
3 M3 15 x 15 Latin-1 and Shift JIS
4 M4 17 x 17 Latin-1 and Shift JIS
------------------------------------------------------------------
: Table : Micro QR Code Sizes:
Version M4 can encode up to 35 digits, 21 alphanumerics, 15 bytes or 9 Kanji
characters.
Except for version M1, which is always ECC level L, the amount of ECC codewords
can be adjusted using the --secure option (API option_1); however ECC level H is
not available for any version, and ECC level Q is only available for version M4:
----------------------------------------------------------------------
Input ECC Error Correction Recovery Available for
Level Capacity Capacity Versions
-------- -------- ----------------------- ------------- --------------
1 L Approx 20% of symbol Approx 7% M1, M2, M3, M4
2 M Approx 37% of symbol Approx 15% M2, M3, M4
3 Q Approx 55% of symbol Approx 25% M4
----------------------------------------------------------------------
: Table : Micro QR ECC Levels:
The defaults for symbol size and ECC level depend on the input and whether
either of them is specified.
2019-12-06 08:47:35 +13:00
For barcode readers that support it, non-ASCII data density may be maximized by
using the --fullmultibyte switch (API option_3 = ZINT_FULL_MULTIBYTE).
Micro QR Code has four different masks designed to minimize unwanted patterns.
The best mask to use is selected automatically by Zint but may be manually
specified by using the --mask switch with values 0-3, or in the API by setting
option_3 = (N + 1) << 8 where N is 0-3. To use with ZINT_FULL_MULTIBYTE set
option_3 = ZINT_FULL_MULTIBYTE | (N + 1) << 8
6.6.5 Rectangular Micro QR Code (rMQR) (ISO 23941)
[zint -b RMQR -d "0123456"]
A rectangular version of QR Code, rMQR supports encoding of GS1 data, and either
Latin-1 characters or Shift JIS characters, and other encodings using the ECI
mechanism. As with other symbologies data should be entered as UTF-8 with
conversion being handled by Zint. The amount of ECC codewords can be adjusted
using the --secure option (API option_1), however only ECC levels M and H are
valid for this type of symbol.
Input ECC Level Error Correction Capacity Recovery Capacity
------- ----------- --------------------------- -------------------
2 M Approx 37% of symbol Approx 15%
4 H Approx 65% of symbol Approx 30%
: Table : rMQR ECC Levels:
The preferred symbol sizes can be selected using the --vers option (API
option_2) as shown in the table below. Input values between 33 and 38 fix the
height of the symbol while allowing Zint to determine the minimum symbol width.
2019-12-06 08:47:35 +13:00
------------------------------------------------------------------------------
Input Version Symbol Size (HxW) Input Version Symbol Size (HxW)
------- --------- ------------------ -- ------- --------- --------------------
1 R7x43 7 x 43 20 R13x77 13 x 77
2 R7x59 7 x 59 21 R13x99 13 x 99
3 R7x77 7 x 77 22 R13x139 13 x 139
4 R7x99 7 x 99 23 R15x43 15 x 43
5 R7x139 7 x 139 24 R15x59 15 x 59
6 R9x43 9 x 43 25 R15x77 15 x 77
7 R9x59 9 x 59 26 R15x99 15 x 99
8 R9x77 9 x 77 27 R15x139 15 x 139
9 R9x99 9 x 99 28 R17x43 17 x 43
10 R9x139 9 x 139 29 R17x59 17 x 59
11 R11x27 11 x 27 30 R17x77 17 x 77
12 R11x43 11 x 43 31 R17x99 17 x 99
13 R11x59 11 x 59 32 R17x139 17 x 139
14 R11x77 11 x 77 33 R7xW 7 x automatic width
15 R11x99 11 x 99 34 R9xW 9 x automatic width
16 R11x139 11 x 139 35 R11xW 11 x automatic width
17 R13x27 13 x 27 36 R13xW 13 x automatic width
18 R13x43 13 x 43 37 R15xW 15 x automatic width
19 R13x59 13 x 59 38 R17xW 17 x automatic width
------------------------------------------------------------------------------
: Table : rMQR Sizes:
2019-12-06 08:47:35 +13:00
The largest version R17x139 (32) can encode up to 361 digits, 219 alphanumerics,
150 bytes, or 92 Kanji characters.
For barcode readers that support it, non-ASCII data density may be maximized by
using the --fullmultibyte switch or in the API by setting
option_3 = ZINT_FULL_MULTIBYTE.
6.6.6 UPNQR (Univerzalnega Plačilnega Naloga QR)
[zint -b UPNQR -i upn_utf8.txt --quietzones]
2019-12-06 08:47:35 +13:00
A variation of QR Code used by Združenje Bank Slovenije (Bank Association of
Slovenia). The size, error correction level and ECI are set by Zint and do not
need to be specified. UPNQR is unusual in that it uses Latin-2 (ISO/IEC 8859-2
plus ASCII) formatted data. Zint will accept UTF-8 data and convert it to
Latin-2, or if your data is already Latin-2 formatted use the --binary switch
(API input_mode = DATA MODE).
2019-12-06 08:47:35 +13:00
The following example creates a symbol from data saved as a Latin-2 file:
2019-12-06 08:47:35 +13:00
zint -o upnqr.png -b 143 --scale=3 --binary -i upn.txt
2019-12-06 08:47:35 +13:00
A mask may be manually specified or the --fast option used as with QRCODE.
6.6.7 MaxiCode (ISO 16023)
[zint -b MAXICODE -d "1Z00004951\GUPSN\G06X610\G159\G1234567\G1/1\G\GY\G1 MAIN S
T\GNY\GNY\R\E" --esc --primary="152382802000000" --scmvv=96]
Developed by UPS the MaxiCode symbology employs a grid of hexagons surrounding a
bullseye finder pattern. This symbology is designed for the identification of
parcels. MaxiCode symbols can be encoded in one of five modes. In modes 2 and 3
MaxiCode symbols are composed of two parts named the primary and secondary
messages. The primary message consists of a Structured Carrier Message which
includes various data about the package being sent and the secondary message
usually consists of address data in a data structure. The format of the primary
2022-08-23 03:28:22 +12:00
message required by Zint is given in the following table.
Characters Meaning
------------ -----------------------------------------------------------------
1 - 9 Postcode data which can consist of up to 9 digits (for mode 2)
or up to 6 alphanumeric characters (for mode 3). Remaining
unused characters for mode 3 can be filled with the SPACE
character (ASCII 32) or omitted.
(adjust the following character positions according to postcode
length)
10 - 12 Three-digit country code according to ISO 3166-1.
13 - 15 Three-digit service code. This depends on your parcel courier.
: Table : MaxiCode Structured Carrier Message Format:
The primary message can be set at the command prompt using the --primary switch
(API primary). The secondary message uses the normal data entry method. For
example:
zint -o test.eps -b 57 --primary="999999999840012" \
-d "Secondary Message Here"
When using the API the primary message must be placed in the primary string. The
secondary is entered in the same way as described in 5.2 Encoding and Saving to
File. When either of these modes is selected Zint will analyse the primary
message and select either mode 2 or mode 3 as appropriate.
2019-12-06 08:47:35 +13:00
As a convenience the secondary message for modes 2 and 3 can be set to be
prefixed by the ISO/IEC 15434 Format "01" (transportation) sequence
"[)>\R01\Gvv", where vv is a 2-digit version, by using the --scmvv switch (API
option_2 = vv + 1). For example to use the common version "96" (ASC MH10/SC 8):
zint -b 57 --primary="152382802840001" --scmvv=96 --esc -d \
"1Z00004951\GUPSN\G06X610\G159\G1234567\G1/1\G\GY\G1 MAIN ST\GNY\GNY\R\E"
will prefix "[)>\R01\G96" to the secondary message. (\R, \G and \E are the
escape sequences for Record Separator, Group Separator and End of Transmission
respectively - see Table : Escape Sequences.)
Modes 4 to 6 can be accessed using the --mode switch (API option_1). Modes 4 to
6 do not have a primary message. For example:
2019-12-06 08:47:35 +13:00
zint -o test.eps -b 57 --mode=4 -d "A MaxiCode Message in Mode 4"
2019-12-06 08:47:35 +13:00
Mode 6 is reserved for the maintenance of scanner hardware and should not be
used to encode user data.
This symbology uses Latin-1 character encoding by default but also supports the
ECI encoding mechanism. The maximum length of text which can be placed in a
MaxiCode symbol depends on the type of characters used in the text.
2019-12-06 08:47:35 +13:00
Example maximum data lengths are given in the table below:
------------------------------------------------------------------------
Mode Maximum Data Length Maximum Data Length Number of Error
for Capital Letters for Numeric Digits Correction Codewords
------ --------------------- --------------------- ---------------------
2* 84 126 50
3* 84 126 50
4 93 138 50
5 77 113 66
6 93 138 50
------------------------------------------------------------------------
: Table : MaxiCode Data Length Maxima:
2019-12-06 08:47:35 +13:00
* - secondary only
MaxiCode supports Structured Append of up to 8 symbols, which can be set by
using the --structapp option (see 4.17 Structured Append) (API structapp). It
does not support specifying an ID.
MaxiCode uses a different scaling than other symbols for raster output, see
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
4.9.3 MaxiCode Raster Scaling, and also for EMF vector output, when the scale is
multiplied by 20 instead of 2.
6.6.8 Aztec Code (ISO 24778)
[zint -b AZTEC -d "123456789012"]
2019-12-06 08:47:35 +13:00
Invented by Andrew Longacre at Welch Allyn Inc in 1995 the Aztec Code symbol is
a matrix symbol with a distinctive bullseye finder pattern. Zint can generate
Compact Aztec Code (sometimes called Small Aztec Code) as well as full-range
Aztec Code symbols and by default will automatically select symbol type and size
dependent on the length of the data to be encoded. Error correction codewords
will normally be generated to fill at least 23% of the symbol. Two options are
available to change this behaviour:
The size of the symbol can be specified using the --vers option (API option_2)
to a value between 1 and 36 according to the following table. The symbols marked
with an asterisk (*) in the table below are compact symbols, meaning they have
a smaller bullseye pattern at the centre of the symbol.
Input Symbol Size Input Symbol Size Input Symbol Size
------- ------------- -- ------- ------------- -- ------- -------------
1 15 x 15* 13 53 x 53 25 105 x 105
2 19 x 19* 14 57 x 57 26 109 x 109
3 23 x 23* 15 61 x 61 27 113 x 113
4 27 x 27* 16 67 x 67 28 117 x 117
5 19 x 19 17 71 x 71 29 121 x 121
6 23 x 23 18 75 x 75 30 125 x 125
7 27 x 27 19 79 x 79 31 131 x 131
8 31 x 31 20 83 x 83 32 135 x 135
9 37 x 37 21 87 x 87 33 139 x 139
10 41 x 41 22 91 x 91 34 143 x 143
11 45 x 45 23 95 x 95 35 147 x 147
12 49 x 49 24 101 x 101 36 151 x 151
: Table : Aztec Code Sizes:
2019-12-06 08:47:35 +13:00
Note that in symbols which have a specified size the amount of error correction
is dependent on the length of the data input and Zint will allow error
correction capacities as low as 3 codewords.
Alternatively the amount of error correction data can be specified by setting
2022-08-23 03:28:22 +12:00
the --secure option (API option_1) to a value from the following table.
Mode Error Correction Capacity
------ ---------------------------
1 >10% + 3 codewords
2 >23% + 3 codewords
3 >36% + 3 codewords
4 >50% + 3 codewords
2019-12-06 08:47:35 +13:00
: Table : Aztec Code Error Correction Modes:
2019-12-06 08:47:35 +13:00
It is not possible to select both symbol size and error correction capacity for
the same symbol. If both options are selected then the error correction capacity
selection will be ignored.
2019-12-06 08:47:35 +13:00
Aztec Code supports ECI encoding and can encode up to a maximum length of
approximately 3823 numeric or 3067 alphabetic characters or 1914 bytes of data.
A separate symbology ID (BARCODE_HIBC_AZTEC) can be used to encode Health
Industry Barcode (HIBC) data.
2019-12-06 08:47:35 +13:00
Aztec Code supports Structured Append of up to 26 symbols and an optional
alphanumeric ID of up to 32 characters, which can be set by using the
--structapp option (see 4.17 Structured Append) (API structapp). The ID cannot
contain spaces. If an ID is not given, no ID is encoded.
6.6.9 Aztec Runes (ISO 24778)
[zint -b AZRUNE -d "125"]
2019-12-06 08:47:35 +13:00
A truncated version of compact Aztec Code for encoding whole integers between 0
and 255, as defined in ISO/IEC 24778 Annex A. Includes Reed-Solomon error
correction. It does not support Structured Append.
2019-12-06 08:47:35 +13:00
6.6.10 Code One
[zint -b CODEONE -d "1234567890123456789012"]
A matrix symbology developed by Ted Williams in 1992 which encodes data in a way
similar to Data Matrix, Code One is able to encode the Latin-1 character set or
GS1 data, and also supports the ECI mechanism. There are two types of Code One
symbol - fixed-ratio symbols which are roughly square (versions A through to H)
and variable-width versions (versions S and T). These can be selected by using
--vers (API option_2) as shown in the table below:
--------------------------------------------------------------
Input Version Size (W x H) Numeric Data Alphanumeric
Capacity Data Capacity
------- --------- ------------ --------------- ---------------
1 A 16 x 18 22 13
2 B 22 x 22 44 27
3 C 28 x 28 104 64
4 D 40 x 42 217 135
5 E 52 x 54 435 271
6 F 70 x 76 886 553
7 G 104 x 98 1755 1096
8 H 148 x 134 3550 2218
9 S width x 8 18 N/A
10 T width x 16 90 55
--------------------------------------------------------------
: Table : Code One Sizes:
2019-12-06 08:47:35 +13:00
Version S symbols can only encode numeric data. The width of version S and
version T symbols is determined by the length of the input data.
Code One supports Structured Append of up to 128 symbols, which can be set by
using the --structapp option (see 4.17 Structured Append) (API structapp). It
does not support specifying an ID. Structured Append is not supported with GS1
data nor for Version S symbols.
6.6.11 Grid Matrix
[zint -b GRIDMATRIX --eci=29 -d "AAT2556 电池充电器+降压转换器 200mA至2A tel:86 019 825127
38"]
Grid Matrix groups modules in a chequerboard pattern, and by default supports
the GB 2312 standard set, which includes Hanzi, ASCII and a small number of
ISO/IEC 8859-1 characters. Input should be entered as UTF-8 with conversion to
GB 2312 being carried out automatically by Zint. Up to around 1529 alphanumeric
characters or 2751 digits may be encoded. The symbology also supports the ECI
mechanism. Support for GS1 data has not yet been implemented.
The size of the symbol and the error correction capacity can be specified. If
you specify both of these values then Zint will make a best-fit attempt to
satisfy both conditions. The symbol size can be specified using the --vers
option (API option_2), and the error correction capacity can be specified by
2022-08-23 03:28:22 +12:00
using the --secure option (API option_1), according to the following tables.
Input Symbol Size Input Symbol Size
------- ------------- -- ------- -------------
1 18 x 18 8 102 x 102
2 30 x 30 9 114 x 114
3 42 x 42 10 126 x 126
4 54 x 54 11 138 x 138
5 66 x 66 12 150 x 150
6 78 x 78 13 162 x 162
7 90 x 90
: Table : Grid Matrix Sizes:
Mode Error Correction Capacity
------ ---------------------------
1 Approximately 10%
2 Approximately 20%
3 Approximately 30%
4 Approximately 40%
5 Approximately 50%
: Table : Grid Matrix Error Correction Modes:
Non-ASCII data density may be maximized by using the --fullmultibyte switch (API
option_3 = ZINT_FULL_MULTIBYTE), but check that your barcode reader supports
this before using.
Grid Matrix supports Structured Append of up to 16 symbols and a numeric ID
(file signature), which can be set by using the --structapp option (see 4.17
Structured Append) (API structapp). The ID ranges from 0 (default) to 255.
6.6.12 DotCode
[zint -b DOTCODE -d "[01]00012345678905[17]201231[10]ABC123456" --gs1]
2019-12-06 08:47:35 +13:00
DotCode uses a grid of dots in a rectangular formation to encode characters up
to a maximum of approximately 450 characters (or 900 numeric digits). The
symbology supports ECI encoding and GS1 data encoding. By default Zint will
2019-12-06 08:47:35 +13:00
produce a symbol which is approximately square, however the width of the symbol
can be adjusted by using the --cols option (API option_2) (maximum 200).
Outputting DotCode to raster images (BMP, GIF, PCX, PNG, TIF) will require
setting the scale of the image to a larger value than the default (e.g.
approximately 10) for the dots to be plotted correctly. Approximately 33% of the
resulting symbol is comprised of error correction codewords.
DotCode has two sets of 4 masks, designated 0-3 and 0-3, the second "prime"
set being the same as the first with corners lit. The best mask to use is
selected automatically by Zint but may be manually specified by using the --mask
switch with values 0-7, where 4-7 denote 0-3, or in the API by setting
option_3 = (N + 1) << 8 where N is 0-7.
2019-12-06 08:47:35 +13:00
DotCode supports Structured Append of up to 35 symbols, which can be set by
using the --structapp option (see 4.17 Structured Append) (API structapp). It
does not support specifying an ID.
6.6.13 Han Xin Code (ISO 20830)
[zint -b HANXIN -d "Hanxin Code symbol"]
Also known as Chinese Sensible Code, Han Xin is capable of encoding characters
in either the Latin-1 character set or the GB 18030 character set (which is a
UTF, i.e. includes all Unicode characters, optimized for Chinese characters) and
is also able to support the ECI mechanism. Support for the encoding of GS1 data
has not yet been implemented.
The size of the symbol can be specified using the --vers option (API option_2)
to a value between 1 and 84 according to the following table.
Input Symbol Size Input Symbol Size Input Symbol Size
------- ------------- -- ------- ------------- -- ------- -------------
1 23 x 23 29 79 x 79 57 135 x 135
2 25 x 25 30 81 x 81 58 137 x 137
3 27 x 27 31 83 x 83 59 139 x 139
4 29 x 29 32 85 x 85 60 141 x 141
5 31 x 31 33 87 x 87 61 143 x 143
6 33 x 33 34 89 x 89 62 145 x 145
7 35 x 35 35 91 x 91 63 147 x 147
8 37 x 37 36 93 x 93 64 149 x 149
9 39 x 39 37 95 x 95 65 151 x 151
10 41 x 41 38 97 x 97 66 153 x 153
11 43 x 43 39 99 x 99 67 155 x 155
12 45 x 45 40 101 x 101 68 157 x 157
13 47 x 47 41 103 x 103 69 159 x 159
14 49 x 49 42 105 x 105 70 161 x 161
15 51 x 51 43 107 x 107 71 163 x 163
16 53 x 53 44 109 x 109 72 165 x 165
17 55 x 55 45 111 x 111 73 167 x 167
18 57 x 57 46 113 x 113 74 169 x 169
19 59 x 59 47 115 x 115 75 171 x 171
20 61 x 61 48 117 x 117 76 173 x 173
21 63 x 63 49 119 x 119 77 175 x 175
22 65 x 65 50 121 x 121 78 177 x 177
23 67 x 67 51 123 x 123 79 179 x 179
24 69 x 69 52 125 x 125 80 181 x 181
25 71 x 71 53 127 x 127 81 183 x 183
26 73 x 73 54 129 x 129 82 185 x 185
27 75 x 75 55 131 x 131 83 187 x 187
28 77 x 77 56 133 x 133 84 189 x 189
: Table : Han Xin Sizes:
2019-12-06 08:47:35 +13:00
The largest version (84) can encode 7827 digits, 4350 ASCII characters, up to
2175 Chinese characters, or 3261 bytes, making it the most capacious of all the
barcodes supported by Zint.
2019-12-06 08:47:35 +13:00
There are four levels of error correction capacity available for Han Xin Code
which can be set by using the --secure option (API option_1) to a value from the
2022-08-23 03:28:22 +12:00
following table.
Mode Recovery Capacity
------ -------------------
1 Approx 8%
2 Approx 15%
3 Approx 23%
4 Approx 30%
: Table : Han Xin Error Correction Modes:
Non-ASCII data density may be maximized by using the --fullmultibyte switch (API
option_3 = ZINT_FULL_MULTIBYTE), but check that your barcode reader supports
this before using.
Han Xin has four different masks designed to minimize unwanted patterns. The
best mask to use is selected automatically by Zint but may be manually specified
by using the --mask switch with values 0-3, or in the API by setting
option_3 = (N + 1) << 8 where N is 0-3. To use with ZINT_FULL_MULTIBYTE set
option_3 = ZINT_FULL_MULTIBYTE | (N + 1) << 8
6.6.14 Ultracode
[zint -b ULTRA -d "HEIMASÍÐA KENNARAHÁSKÓLA ÍSLANDS"]
This symbology uses a grid of coloured elements to encode data. ECI and GS1
2020-04-07 06:10:17 +12:00
modes are supported. The amount of error correction can be set using the
2022-08-23 03:28:22 +12:00
--secure option (API option_1) to a value as shown in the following table.
Value EC Level Amount of symbol holding error correction data
------- ---------- ------------------------------------------------
1 EC0 0% - Error detection only
2 EC1 Approx 5%
3 EC2 Approx 9% - Default value
4 EC3 Approx 17%
5 EC4 Approx 25%
6 EC5 Approx 33%
2020-04-07 06:10:17 +12:00
: Table : Ultracode Error Correction Values:
2020-04-07 06:10:17 +12:00
Zint does not currently implement data compression by default, but this can be
initiated through the API by setting
2020-04-07 06:10:17 +12:00
symbol->option_3 = ULTRA_COMPRESSION;
2020-04-07 06:10:17 +12:00
With compression, up to 504 digits, 375 alphanumerics or 252 bytes can be
encoded.
2020-04-07 06:10:17 +12:00
Revision 2 of Ultracode (2023) may be specified using --vers=2 (API
option_2 = 2).
--------------------------------------------------------------------------------
WARNING: Revision 2 of Ultracode was only finalized December 2023 and Zint has
not yet been updated to support it. Do not use.
--------------------------------------------------------------------------------
Ultracode supports Structured Append of up to 8 symbols and an optional numeric
ID (File Number), which can be set by using the --structapp option (see 4.17
Structured Append) (API structapp). The ID ranges from 1 to 80088. If an ID is
not given, no ID is encoded.
2019-12-06 08:47:35 +13:00
6.7 Other Barcode-Like Markings
6.7.1 Facing Identification Mark (FIM)
[zint -b FIM --compliantheight -d "C"]
2019-12-06 08:47:35 +13:00
Used by the United States Postal Service (USPS), the FIM symbology is used to
assist automated mail processing. There are only 5 valid symbols which can be
generated using the characters A-E as shown in the table below.
2019-12-06 08:47:35 +13:00
Code Letter Usage
------------- ----------------------------------------------------------------
A Used for courtesy reply mail and metered reply mail with a
pre-printed POSTNET symbol.
B Used for business reply mail without a pre-printed zip code.
C Used for business reply mail with a pre-printed zip code.
D Used for Information Based Indicia (IBI) postage.
E Used for customized mail with a USPS Intelligent Mail barcode.
: Table : Valid FIM Characters:
2019-12-06 08:47:35 +13:00
6.7.2 Flattermarken
[zint -b FLAT -d "1304056"]
2019-12-06 08:47:35 +13:00
Used for the recognition of page sequences in print-shops, the Flattermarken is
not a true barcode symbol and requires precise knowledge of the position of the
mark on the page. The Flattermarken system can encode numeric data up to a
maximum of 128 digits and does not include a check digit.
2019-12-06 08:47:35 +13:00
7. Legal and Version Information
2019-12-06 08:47:35 +13:00
7.1 License
Zint, libzint and Zint Barcode Studio are Copyright © 2024 Robin Stuart. All
historical versions are distributed under the GNU General Public License version
3 or later. Versions 2.5 and later are released under a dual license: the
encoding library is released under the BSD (3 clause) license whereas the GUI,
Zint Barcode Studio, and the CLI are released under the GNU General Public
License version 3 or later.
2019-12-06 08:47:35 +13:00
Telepen is a trademark of SB Electronic Systems Ltd.
QR Code is a registered trademark of Denso Wave Incorporated.
Mailmark is a registered trademark of Royal Mail Group Ltd.
2019-12-06 08:47:35 +13:00
Microsoft, Windows and the Windows logo are either registered trademarks or
trademarks of Microsoft Corporation in the United States and/or other countries.
Linux is the registered trademark of Linus Torvalds in the U.S. and other
countries.
Mac and macOS are trademarks of Apple Inc., registered in the U.S. and other
countries.
2022-07-20 06:38:33 +12:00
The Zint logo is derived from “SF Planetary Orbiter” font by ShyFoundary.
2019-12-06 08:47:35 +13:00
Zint.org.uk website design and hosting provided by Robert Elliott.
7.2 Patent Issues
2019-12-06 08:47:35 +13:00
All of the code in Zint is developed using information in the public domain,
usually freely available on the Internet. Some of the techniques used may be
subject to patents and other intellectual property legislation. It is my belief
that any patents involved in the technology underlying symbologies utilised by
Zint are unadopted, that is the holder does not object to their methods being
2019-12-06 08:47:35 +13:00
used.
Any methods patented or owned by third parties or trademarks or registered
trademarks used within Zint or in this document are and remain the property of
their respective owners and do not indicate endorsement or affiliation with
those owners, companies or organisations.
7.3 Version Information
2023-12-18 22:44:47 +13:00
The current stable version of Zint is 2.13.0, released on 18th December 2023.
See "ChangeLog" in the project root directory for information on all releases.
2019-12-06 08:47:35 +13:00
7.4 Sources of Information
2019-12-06 08:47:35 +13:00
Below is a list of some of the sources used in rough chronological order:
- Nick Johnsons Barcode Specifications
- Bar Code 1 Specification Source Page
- SB Electronic Systems Telepen website
- Pharmacode specifications from Laetus
- Morovia RM4SCC specification
- Australia Posts A Guide to Printing the 4-State Barcode and bcsample
source code
- Plessey algorithm from GNU-Barcode v0.98 by Leonid A. Broukhis
- GS1 General Specifications v 8.0 Issue 2
- PNG: The Definitive Guide and wpng source code by Greg Reolofs
- PDF417 specification and pdf417 source code by Grand Zebu
- Barcode Reference, TBarCode/X User Documentation and TBarCode/X
demonstration program from Tec-It
- IEC16022 source code by Stefan Schmidt et al
- United States Postal Service Specification USPS-B-3200
- Adobe Systems Incorporated Encapsulated PostScript File Format Specification
- BSI Online Library
- Libdmtx Data Matrix ECC200 decoding library
7.5 Standards Compliance
2019-12-06 08:47:35 +13:00
Zint was developed to provide compliance with the following British and
international standards:
7.5.1 Symbology Standards
- ISO/IEC 24778:2008 Information technology - Automatic identification and
data capture techniques - Aztec Code bar code symbology specification
- SEMI T1-95 Specification for Back Surface Bar Code Marking of Silicon Wafers
(BC412) (1996)
- ANSI/AIM BC12-1998 - Uniform Symbology Specification Channel Code
- BS EN 798:1996 Bar coding - Symbology specifications - Codabar
- AIM Europe ISS-X-24 - Uniform Symbology Specification Codablock-F (1995)
- ISO/IEC 15417:2007 Information technology - Automatic identification and
data capture techniques - Code 128 bar code symbology specification
- BS EN 12323:2005 AIDC technologies - Symbology specifications - Code 16K
- ISO/IEC 16388:2007 Information technology - Automatic identification and
data capture techniques - Code 39 bar code symbology specification
- ANSI/AIM BC6-2000 - Uniform Symbology Specification Code 49
- ANSI/AIM BC5-1995 - Uniform Symbology Specification Code 93
- AIM Uniform Symbology Specification Code One (1994)
- ISO/IEC 16022:2006 Information technology - Automatic identification and
data capture techniques - Data Matrix ECC200 bar code symbology
specification
- ISO/IEC 21471:2020 Information technology - Automatic identification and
data capture techniques - Extended rectangular data matrix (DMRE) bar code
symbology specification
- AIM TSC1705001 (v 4.0 Draft 0.15) - Information technology - Automatic
identification and data capture techniques - Bar code symbology
specification - DotCode (Revised 28th May 2019)
- ISO/IEC 15420:2009 Information technology - Automatic identification and
data capture techniques - EAN/UPC bar code symbology specification
- AIMD014 (v 1.63) - Information technology, Automatic identification and data
capture techniques - Bar code symbology specification - Grid Matrix
(Released 9th Dec 2008)
- ISO/IEC 24723:2010 Information technology - Automatic identification and
data capture techniques - GS1 Composite bar code symbology specification
- ISO/IEC 24724:2011 Information technology - Automatic identification and
data capture techniques - GS1 DataBar bar code symbology specification
- ISO/IEC 20830:2021 Information technology - Automatic identification and
data capture techniques - Han Xin Code bar code symbology specification
- ISO/IEC 16390:2007 Information technology - Automatic identification and
data capture techniques - Interleaved 2 of 5 bar code symbology
specification
- ISO/IEC 16023:2000 Information technology - International symbology
specification - MaxiCode
- ISO/IEC 24728:2006 Information technology - Automatic identification and
data capture techniques - MicroPDF417 bar code symbology specification
- ISO/IEC 15438:2015 Information technology - Automatic identification and
data capture techniques - PDF417 bar code symbology specification
- ISO/IEC 18004:2015 Information technology - Automatic identification and
data capture techniques - QR Code bar code symbology specification
- ISO/IEC 23941:2022 Information technology - Automatic identification and
data capture techniques - Rectangular Micro QR Code (rMQR) bar code
symbology specification
- AIMD/TSC15032-43 (v 0.99c) - International Technical Specification -
Ultracode Symbology (Draft) (Released 4th Nov 2015)
A number of other specification documents have also been referenced, such as
MIL-STD-1189 Rev. B (1989) (LOGMARS), USPS DMM 300 2006 (2011) (POSTNET, PLANET,
FIM) and USPS-B-3200 (2015) (IMAIL). Those not named include postal and delivery
company references in particular.
7.5.2 General Standards
- AIM ITS/04-001 International Technical Standard - Extended Channel
Interpretations Part 1: Identification Schemes and Protocol (Released 24th
May 2004)
- AIM ITS/04-023 International Technical Standard - Extended Channel
Interpretations Part 3: Register (Version 2, February 2022)
- GS1 General Specifications Release 23.0 (Jan 2023)
- ANSI/HIBC 2.6-2016 - The Health Industry Bar Code (HIBC) Supplier Labeling
Standard
Annex A. Character Encoding
2019-12-06 08:47:35 +13:00
This section is intended as a quick reference to the character sets used by
Zint. All symbologies use standard ASCII input as shown in section A.1, but some
support extended characters as shown in the subsequent section A.2 Latin
Alphabet No. 1 (ISO/IEC 8859-1).
2019-12-06 08:47:35 +13:00
A.1 ASCII Standard
The ubiquitous ASCII standard is well known to most computer users. Its
2019-12-06 08:47:35 +13:00
reproduced here for reference.
Hex 0 1 2 3 4 5 6 7
----- ----- ----- ------- --- --- --- --- -----
0 NUL DLE SPACE 0 @ P ` p
1 SOH DC1 ! 1 A Q a q
2 STX DC2 " 2 B R b r
3 ETX DC3 # 3 C S c s
4 EOT DC4 $ 4 D T d t
5 ENQ NAK % 5 E U e u
6 ACK SYN & 6 F V f v
7 BEL ETB ' 7 G W g w
8 BS CAN ( 8 H X h x
9 TAB EM ) 9 I Y i y
A LF SUB * : J Z j z
B VT ESC + ; K [ k {
C FF FS , < L \ l |
D CR GS - = M ] m }
E SO RS . > N ^ n ~
F SI US / ? O _ o DEL
: Table : ASCII:
A.2 Latin Alphabet No. 1 (ISO/IEC 8859-1)
ISO/IEC 8859-1 defines additional characters common in western European
languages like French, German, Italian and Spanish. This extension is the
default encoding of many barcodes (see Table : Default Character Sets) when a
codepoint above hex 9F is encoded. Note that codepoints hex 80 to 9F are not
defined.
Hex 8 9 A B C D E F
----- --- --- ------ --- --- --- --- ---
0 NBSP ° À Ð à ð
1 ¡ ± Á Ñ á ñ
2 ¢ ² Â Ò â ò
3 £ ³ Ã Ó ã ó
4 ¤ ´ Ä Ô ä ô
5 ¥ μ Å Õ å õ
6 ¦ ¶ Æ Ö æ ö
7 § · Ç × ç ÷
8 ¨ ¸ È Ø è ø
9 © ¹ É Ù é ù
A ª º Ê Ú ê ú
B « » Ë Û ë û
C ¬ ¼ Ì Ü ì ü
D SHY ½ Í Ý í ý
E ® ¾ Î Þ î þ
F ¯ ¿ Ï ß ï ÿ
: Table : ISO/IEC 8859-1:
Annex B. Qt Backend QZint
Used internally by Zint Barcode Studio to display the preview, the Qt Backend
QZint renders a barcode by drawing the vector representation (see 5.5 Buffering
Symbols in Memory (vector)) provided by the Zint library libzint.
The main class is Zint::QZint, which has getter/setter properties that
correspond to the zint_symbol structure (see 5.7 Setting Options), and a main
method render() which takes a Qt QPainter to paint with, and a QRectF
rectangular area specifying where to paint into:
/* Encode and display barcode in `paintRect` using `painter`.
Note: legacy argument `mode` is not used */
void render(QPainter& painter, const QRectF& paintRect,
AspectRatioMode mode = IgnoreAspectRatio);
render() will emit one of two Qt signals - encoded on successful encoding and
drawing, or errored on failure. The client can connect and act appropriately,
for instance:
connect(qzint, SIGNAL(encoded()), SLOT(on_encoded()));
connect(qzint, SIGNAL(errored()), SLOT(on_errored()));
where qzint is an instance of Zint::QZint and on_encoded() and on_error() are Qt
slot methods provided by the caller. On error, the error value and message can
be retrieved by the methods getError() and lastError() respectively.
The other main method is save_to_file():
/* Encode and print barcode to file `filename`.
Only sets `getError()` on error, not on warning */
bool save_to_file(const QString& filename); // `ZBarcode_Print()`
which takes a filename to output to. It too will emit an errored signal on
failure, returning false (but nothing on success, which just returns true). Note
that rotation is achieved through the setter method setRotateAngleValue() (as
opposed to the rotate_angle argument used by ZBarcode_Print()).
Various other methods are available, for instance methods for testing symbology
capabilities, and utility methods such as defaultXdim() and getAsCLI().
For full details, see "backend_qt/qzint.h".
Annex C. Tcl Backend Binding
A Tcl binding is available in the "backend_tcl” sub-directory. To make on Unix:
cd backend_tcl
autoconf
./configure
make
sudo make install
For Windows, a Visual Studio 6.0 project file is available at
"backend_tcl\zint_tcl.dsp". This can also be opened (and converted) by more
modern Visual Studio versions, though some fixing up of the project
configuration will likely be required.
Once built and installed, invoke the Tcl/Tk CLI "wish":
wish
and ignoring the Tk window click back to the command prompt "%" and type:
require package zint
zint help
which will show the usage message, with options very similiar to the Zint CLI.
(One notable difference is that boolean options such as -bold take a 1 or 0 as
an argument.)
A demonstration Tcl/Tk program which is also useful in itself is available at
"backend_tcl/demo/demo.tcl". To run type:
wish demo/demo.tcl
which will display the following window.
[Tcl/Tk demonstration program window]
You can select the symbology, enter the data to encode, and set options (which
are the same as those given in the usage message). A raster preview of the
configured barcode is displayed once the "Generate" button is pressed.
Annex D. Man Page ZINT(1)
% ZINT(1) Version 2.13.0.9 % % January 2024
NAME
zint - encode data as a barcode image
SYNOPSIS
zint [-h | --help]
zint [options]
DESCRIPTION
zint takes input data from the command line or a file to encode in a barcode
which is then output to an image file.
Input data is UTF-8, unless --binary is specified.
Human Readable Text (HRT) is displayed by default for those barcodes that
support HRT, unless --notext is specified.
The output image file (specified with -o | --output) may be in one of these
formats: Windows Bitmap (BMP), Enhanced Metafile Format (EMF), Encapsulated
PostScript (EPS), Graphics Interchange Format (GIF), ZSoft Paintbrush (PCX),
Portable Network Format (PNG), Scalable Vector Graphic (SVG), or Tagged Image
File Format (TIF).
OPTIONS
-h, --help
Print usage information summarizing command line options.
-b TYPE, --barcode=TYPE
Set the barcode symbology that will be used to encode the data. TYPE 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 -t |
--types option. Type names are case-insensitive, and non-alphanumerics are
ignored.
--addongap=INTEGER
For EAN/UPC symbologies, set the gap between the main data and the add-on.
INTEGER 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.
--batch
Treat each line of an input file specified with -i | --input 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 “00001.png”,
“00002.png” etc., which can be changed by using the -o | --output option.
--bg=COLOUR
Specify a background (paper) colour where COLOUR is in hexadecimal RRGGBB or
RRGGBBAA format or in decimal C,M,Y,K percentages format.
--binary
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 datas character encoding takes place.
--bind
Add horizontal boundary bars (also known as bearer bars) to the symbol. The
width of the boundary bars is specified by the --border option. --bind can
also be used to add row separator bars to symbols stacked with multiple -d |
--data inputs, in which case the width of the separator bars is specified
with the --separator option.
--bindtop
Add a horizontal boundary bar to the top of the symbol. The width of the
boundary bar is specified by the --border option.
--bold
Use bold text for the Human Readable Text (HRT).
--border=INTEGER
Set the width of boundary bars (--bind or --bindtop) or box borders (--box),
where INTEGER is in integral multiples of the X-dimension. The default is
zero.
--box
Add a box around the symbol. The width of the borders is specified by the
--border option.
--cmyk
Use the CMYK colour space when outputting to Encapsulated PostScript (EPS)
or TIF files.
--cols=INTEGER
Set the number of data columns in the symbol to INTEGER. Affects
Codablock-F, DotCode, GS1 DataBar Expanded Stacked (DBAR_EXPSTK),
MicroPDF417 and PDF417 symbols.
--compliantheight
Warn if the height specified by the --height option is not compliant with
the barcodes specification, or if --height is not given, default to the
height specified by the specification (if any).
-d, --data=DATA
Specify the input DATA to encode. The --esc option may be used to enter
non-printing characters using escape sequences. The DATA should be UTF-8,
unless the --binary option is given, in which case it can be anything.
--direct
Send output to stdout, which in most cases should be re-directed to a pipe
or a file. Use --filetype to specify output format.
--dmiso144
For Data Matrix symbols, use the standard ISO/IEC codeword placement for 144
x 144 (--vers=24) sized symbols, instead of the default “de facto” placement
(which rotates the placement of ECC codewords).
--dmre
2022-07-22 06:53:48 +12:00
For Data Matrix symbols, allow Data Matrix Rectangular Extended (DMRE) sizes
when considering automatic sizes. See also --square.
--dotsize=NUMBER
Set the radius of the dots in dotty mode (--dotty). NUMBER is in
X-dimensions, and may be floating-point. The default is 0.8.
--dotty
Use dots instead of squares for matrix symbols. DotCode is always in dotty
mode.
--dump
Dump a hexadecimal representation of the symbols encodation to stdout. The
same representation may be outputted to a file by using a .txt extension
with -o | --output or by specifying --filetype=txt.
-e, --ecinos
Display the table of ECIs (Extended Channel Interpretations).
--eci=INTEGER
Set the ECI code for the input data to INTEGER. See -e | --ecinos for a list
of the ECIs available. ECIs are supported by Aztec Code, Code One, Data
Matrix, DotCode, Grid Matrix, Han Xin Code, MaxiCode, MicroPDF417, PDF417,
QR Code, rMQR and Ultracode.
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
--embedfont
For vector output, embed the font in the file for portability. Currently
only available for SVG output.
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
--esc
Process escape characters in the input data. The escape sequences are:
\0 (0x00) NUL Null character
\E (0x04) EOT End of Transmission
\a (0x07) BEL Bell
\b (0x08) BS Backspace
\t (0x09) HT Horizontal Tab
\n (0x0A) LF Line Feed
\v (0x0B) VT Vertical Tab
\f (0x0C) FF Form Feed
\r (0x0D) CR Carriage Return
\e (0x1B) ESC Escape
\G (0x1D) GS Group Separator
\R (0x1E) RS Record Separator
\\ (0x5C) \ Backslash
\dNNN (NNN) Any 8-bit character where NNN is
decimal (000-255)
\oNNN (0oNNN) Any 8-bit character where NNN is
octal (000-377)
\xNN (0xNN) Any 8-bit character where NN is
hexadecimal (00-FF)
\uNNNN (U+NNNN) Any 16-bit Unicode BMP character
where NNNN is hexadecimal
\UNNNNNN (U+NNNNNN) Any 21-bit Unicode character
where NNNNNN is hexadecimal
--extraesc
Process the special escape sequences \^A, \^B and \^C that allow manual
switching of Code Sets (Code 128 only). The sequence \^^ can be used to
encode data that contains special escape sequences.
--fast
Use faster if less optimal encodation or other shortcuts (affects Data
Matrix, MicroPDF417, PDF417, QRCODE & UPNQR only).
--fg=COLOUR
Specify a foreground (ink) colour where COLOUR is in hexadecimal RRGGBB or
RRGGBBAA format or in decimal C,M,Y,K percentages format.
--filetype=TYPE
Set the output file type to TYPE, which is one of BMP, EMF, EPS, GIF, PCX,
PNG, SVG, TIF, TXT.
--fullmultibyte
Use the multibyte modes of Grid Matrix, Han Xin and QR Code for non-ASCII
data.
--gs1
Treat input as GS1 compatible data. Application Identifiers (AIs) should be
placed in square brackets "[]" (but see --gs1parens).
--gs1nocheck
Do not check the validity of GS1 data.
--gs1parens
Process parentheses "()" as GS1 AI delimiters, rather than square brackets
"[]". The input data must not otherwise contain parentheses.
--gssep
For Data Matrix in GS1 mode, use GS (0x1D) as the GS1 data separator instead
of FNC1.
--guarddescent=NUMBER
For EAN/UPC symbols, set the height the guard bars descend below the main
bars, where NUMBER is in X-dimensions. NUMBER may be floating-point.
EAN/UPC: add quiet zone indicators option (API `output_options` `EANUPC_GUARD_WHITESPACE`, CLI `--guardwhitespace`) (ticket #287) EAN-2/EAN-5: HRT now at top instead of at bottom for standalones, following BWIPP CLI: batch mode: don't close input if stdin EAN/UPC: fix excess 1X to right of add-ons Composites: fix excess whitespace; fix quiet zone calcs to allow for linear shifting CLI: use own (Wine) version of `CommandLineToArgvW()` to avoid loading "shell32.dll" Move "font.h" -> "raster_font.h" EPS/SVG: use new `out_putsf()` func to output floats, avoiding trailing zeroes & locale dependency EPS: simplify "TR" formula SVG: change font from "Helvetica, sans serif" to "OCR-B, monospace"; use single "<path>" instead of multiple "<rect>"s to draw boxes (reduces file size) Add `EMBED_VECTOR_FONT` to `output_options` (CLI `--embedfont`) to enable embedding of font in vector output - currently only for SVG output of EAN/UPC GUI: use "OCR-B" font for EAN/UPC and "Arimo" for all others (was "Helvetica" for both); paint background of screen preview light grey so as contrasts with whitespace and quiet zones EMF: prefix funcs with `emf_`; simplify string `halign` handling large: rename `large_int` -> `large_uint` CODE128/common: move `c128_hrt_cpy_iso8859_1()` to `hrt_cpy_iso8859_1()` and add `ZINT_WARN_HRT_TRUNCATED` warning (for future use) Various symbologies: replace `printf()` with `fputs()` (symbol->debug) QRCODE: better assert(), removing a NOLINT (2 left) CLI: add some more barcode synonyms for DBAR common: various fiddlings CMake: don't include png.c unless ZINT_USE_PNG (avoids clang warning)
2023-06-12 12:25:55 +12:00
--guardwhitespace
For EAN/UPC symbols, add quiet zone indicators "<" and/or ">" to HRT where
applicable.
--height=NUMBER
Set the height of the symbol in X-dimensions. NUMBER may be floating-point.
--heightperrow
Treat height as per-row. Affects Codablock-F, Code 16K, Code 49, GS1 DataBar
Expanded Stacked (DBAR_EXPSTK), MicroPDF417 and PDF417.
-i, --input=FILE
Read the input data from FILE. Specify a single hyphen (-) for FILE to read
from stdin.
--init
Create a Reader Initialisation (Programming) symbol.
--mask=INTEGER
Set the masking pattern to use for DotCode, Han Xin or QR Code to INTEGER,
overriding the automatic selection.
--mirror
Use the batch data to determine the filename in batch mode (--batch). The -o
| --output option can be used to specify an output directory (any filename
will be ignored).
--mode=INTEGER
For MaxiCode and GS1 Composite symbols, set the encoding mode to INTEGER.
For MaxiCode (SCM is Structured Carrier Message, with 3 fields: postcode,
3-digit ISO 3166-1 country code, 3-digit service code):
2 SCM with 9-digit numeric postcode
3 SCM with 6-character alphanumeric postcode
4 Enhanced ECC for the primary part of the message
5 Enhanced ECC for all of the message
6 Reader Initialisation (Programming)
For GS1 Composite symbols (names end in _CC, i.e. EANX_CC, GS1_128_CC,
DBAR_OMN_CC etc.):
1 CC-A
2 CC-B
3 CC-C (GS1_128_CC only)
--nobackground
Remove the background colour (EMF, EPS, GIF, PNG, SVG and TIF only).
--noquietzones
Disable any quiet zones for symbols that define them by default.
--notext
Remove the Human Readable Text (HRT).
-o, --output=FILE
Send the output to FILE. When not in batch mode, the default is “out.png”
(or “out.gif” if zint built without PNG support). When in batch mode
(--batch), special characters can be used to format the output filenames:
~ Insert a number or 0
# Insert a number or space
@ Insert a number or * (+ on Windows)
Any other Insert literally
--primary=STRING
For MaxiCode, set the content of the primary message. For GS1 Composite
symbols, set the content of the linear symbol.
--quietzones
Add compliant quiet zones for symbols that specify them. This is in addition
to any whitespace specified by -w | --whitesp or --vwhitesp.
-r, --reverse
Reverse the foreground and background colours (white on black). Known as
“reflectance reversal” or “reversed reflectance”.
--rotate=INTEGER
Rotate the symbol by INTEGER degrees, where INTEGER can be 0, 90, 270 or
360.
--rows=INTEGER
Set the number of rows for Codablock-F or PDF417 to INTEGER. 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).
--scale=NUMBER
Adjust the size of the X-dimension. NUMBER may be floating-point, and is
multiplied by 2 (except for MaxiCode) before being applied. The default
scale is 1.
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
For MaxiCode, the scale is multiplied by 10 for raster output, by 40 for EMF
output, and by 2 otherwise.
Increments of 0.5 (half-integers) are recommended for non-MaxiCode raster
output (BMP, GIF, PCX, PNG and TIF).
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
See also --scalexdimdp below.
--scalexdimdp=X[,R]
Scale the image according to X-dimension X and resolution R, where X is in
mm and R is in dpmm (dots per mm). X and R may be floating-point. R is
optional and defaults to 12 dpmm (approximately 300 dpi). X may be zero in
which case a symbology-specific default is used.
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
The scaling takes into account the output filetype, and deals with all the
details mentioned above. Units may be specified for X by appending “in”
(inch) or “mm”, and for R by appending “dpi” (dots per inch) or “dpmm” -
e.g. --scalexdimdp=0.013in,300dpi.
--scmvv=INTEGER
For MaxiCode, prefix the Structured Carrier Message (SCM) with
"[)>\R01\Gvv", where vv is a 2-digit INTEGER.
--secure=INTEGER
Set the error correction level (ECC) to INTEGER. The meaning is specific to
the following matrix symbols (all except PDF417 are approximate):
Aztec Code 1 to 4 (10%, 23%, 36%, 50%)
Grid Matrix 1 to 5 (10% to 50%)
Han Xin 1 to 4 (8%, 15%, 23%, 30%)
Micro QR 1 to 3 (7%, 15%, 25%) (L, M, Q)
PDF417 0 to 8 (2^(INTEGER + 1) codewords)
QR Code 1 to 4 (7%, 15%, 25%, 30%) (L, M, Q, H)
rMQR 2 or 4 (15% or 30%) (M or H)
Ultracode 1 to 6 (0%, 5%, 9%, 17%, 25%, 33%)
--segN=ECI,DATA
Set the ECI & DATA content for segment N, where N is 1 to 9. -d | --data
must still be given, and counts as segment 0, its ECI given by --eci.
Segments must be consecutive.
--separator=INTEGER
Set the height of row separator bars for stacked symbologies, where INTEGER
is in integral multiples of the X-dimension. The default is zero.
--small
Use small text for Human Readable Text (HRT).
--square
For Data Matrix symbols, exclude rectangular sizes when considering
automatic sizes. See also --dmre.
--structapp=I,C[,ID]
Set Structured Append info, where I is the 1-based index, C is the total
number of symbols in the sequence, and ID, which is optional, is the
identifier that all symbols in the sequence share. Structured Append is
supported by Aztec Code, Code One, Data Matrix, DotCode, Grid Matrix,
MaxiCode, MicroPDF417, PDF417, QR Code and Ultracode.
-t, --types
Display the table of barcode types (symbologies). The numbers or names can
be used with -b | --barcode.
--textgap=NUMBER
Adjust the gap between the barcode and the Human Readable Text (HRT). NUMBER
is in X-dimensions, and may be floating-point. Maximum is 10 and minimum is
-5. The default is 1.
--vers=INTEGER
Set the symbol version (size, check digits, other options) to INTEGER. The
meaning is symbol-specific.
For most matrix symbols, it specifies size:
Aztec Code 1 to 36 (1 to 4 compact)
1 15x15 13 53x53 25 105x105
2 19x19 14 57x57 26 109x109
3 23x23 15 61x61 27 113x113
4 27x27 16 67x67 28 117x117
5 19x19 17 71x71 29 121x121
6 23x23 18 75x75 30 125x125
7 27x27 19 79x79 31 131x131
8 31x31 20 83x83 32 135x135
9 37x37 21 87x87 33 139x139
10 41x41 22 91x91 34 143x143
11 45x45 23 95x95 35 147x147
12 49x49 24 101x101 36 151x151
Code One 1 to 10 (9 and 10 variable width) (WxH)
1 16x18 6 70x76
2 22x22 7 104x98
3 28x28 8 148x134
4 40x42 9 Wx8
5 52x54 10 Wx16
Data Matrix 1 to 48 (31 to 48 DMRE) (HxW)
1 10x10 17 72x72 33 8x80
2 12x12 18 80x80 34 8x96
3 14x14 19 88x88 35 8x120
4 16x16 20 96x96 36 8x144
5 18x18 21 104x104 37 12x64
6 20x20 22 120x120 38 12x88
7 22x22 23 132x132 39 16x64
8 24x24 24 144x144 40 20x36
9 26x26 25 8x18 41 20x44
10 32x32 26 8x32 42 20x64
11 36x36 28 12x26 43 22x48
12 40x40 28 12x36 44 24x48
13 44x44 29 16x36 45 24x64
14 48x48 30 16x48 46 26x40
15 52x52 31 8x48 47 26x48
16 64x64 32 8x64 48 26x64
Grid Matrix 1 to 13
1 18x18 6 78x78 11 138x138
2 30x30 7 90x90 12 150x150
3 42x42 8 102x102 13 162x162
4 54x54 9 114x114
5 66x66 10 126x126
Han Xin 1 to 84
1 23x23 29 79x79 57 135x135
2 25x25 30 81x81 58 137x137
3 27x27 31 83x83 59 139x139
4 29x29 32 85x85 60 141x141
5 31x31 33 87x87 61 143x143
6 33x33 34 89x89 62 145x145
7 35x35 35 91x91 63 147x147
8 37x37 36 93x93 64 149x149
9 39x39 37 95x95 65 151x151
10 41x41 38 97x97 66 153x153
11 43x43 39 99x99 67 155x155
12 45x45 40 101x101 68 157x157
13 47x47 41 103x103 69 159x159
14 49x49 42 105x105 70 161x161
15 51x51 43 107x107 71 163x163
16 53x53 44 109x109 72 165x165
17 55x55 45 111x111 73 167x167
18 57x57 46 113x113 74 169x169
19 59x59 47 115x115 75 171x171
20 61x61 48 117x117 76 173x173
21 63x63 49 119x119 77 175x175
22 65x65 50 121x121 78 177x177
23 67x67 51 123x123 79 179x179
24 69x69 52 125x125 80 181x181
25 71x71 53 127x127 81 183x183
26 73x73 54 129x129 82 185x185
27 75x75 55 131x131 83 187x187
28 77x77 56 133x133 84 189x189
Micro QR 1 to 4 (M1, M2, M3, M4)
1 11x11 3 15x15
2 13x13 4 17x17
QR Code 1 to 40
1 21x21 15 77x77 29 133x133
2 25x25 16 81x81 30 137x137
3 29x29 17 85x85 31 141x141
4 33x33 18 89x89 32 145x145
5 37x37 19 93x93 33 149x149
6 41x41 20 97x97 34 153x153
7 45x45 21 101x101 35 157x157
8 49x49 22 105x105 36 161x161
9 53x53 23 109x109 37 165x165
10 57x57 24 113x113 38 169x169
11 61x61 25 117x117 39 173x173
12 65x65 26 121x121 40 177x177
13 69x69 27 125x125
14 73x73 28 129x129
rMQR 1 to 38 (33 to 38 automatic width) (HxW)
1 7x43 14 11x77 27 15x139
2 7x59 15 11x99 28 17x43
3 7x77 16 11x139 29 17x59
4 7x99 17 13x27 30 17x77
5 7x139 18 13x43 31 17x99
6 9x43 19 13x59 32 17x139
7 9x59 20 13x77 33 7xW
8 9x77 21 13x99 34 9xW
9 9x99 22 13x139 35 11xW
10 9x139 23 15x43 36 13xW
11 11x27 24 15x59 37 15xW
12 11x43 25 15x77 38 17xW
13 11x59 26 15x99
For a number of linear symbols, it specifies check character options (“hide”
2022-08-23 03:28:22 +12:00
or “hidden” means dont show in HRT, “visible” means do display in HRT):
C25IATA 1 or 2 (add visible or hidden check digit)
C25IND ditto
C25INTER ditto
C25LOGIC ditto
C25STANDARD ditto
Codabar 1 or 2 (add hidden or visible check digit)
Code 11 0 to 2 (2 visible check digits to none)
0 (default 2 visible check digits)
1 (1 visible check digit)
2 (no check digits)
Code 39 1 or 2 (add visible or hidden check digit)
Code 93 1 (hide the default check characters)
EXCODE39 1 or 2 (add visible or hidden check digit)
LOGMARS 1 or 2 (add visible or hidden check digit)
MSI Plessey 0 to 6 (none to various visible options)
1, 2 (mod-10, mod-10 + mod-10)
3, 4 (mod-11 IBM, mod-11 IBM + mod-10)
5, 6 (mod-11 NCR, mod-11 NCR + mod-10)
+10 (hide)
For a few other symbologies, it specifies other characteristics:
Channel Code 3 to 8 (no. of channels)
DAFT 50 to 900 (permille tracker ratio)
DPD 1 (relabel)
PZN 1 (PZN7 instead of default PZN8)
Ultracode 2 (revision 2)
VIN 1 (add international prefix)
-v, --version
Display zint version.
--vwhitesp=INTEGER
Set the height of vertical whitespace above and below the barcode, where
INTEGER is in integral multiples of the X-dimension.
-w, --whitesp=INTEGER
Set the width of horizontal whitespace either side of the barcode, where
INTEGER is in integral multiples of the X-dimension.
--werror
Convert all warnings into errors.
EXIT STATUS
0
Success (including when given informational options -h | --help, -e |
--ecinos, -t | --types, -v | --version).
1
Human Readable Text was truncated (maximum 199 bytes)
(ZINT_WARN_HRT_TRUNCATED)
2
Invalid option given but overridden by Zint (ZINT_WARN_INVALID_OPTION)
3
Automatic ECI inserted by Zint (ZINT_WARN_USES_ECI)
4
Symbol created not compliant with standards (ZINT_WARN_NONCOMPLIANT)
5
Input data wrong length (ZINT_ERROR_TOO_LONG)
6
Input data incorrect (ZINT_ERROR_INVALID_DATA)
7
Input check digit incorrect (ZINT_ERROR_INVALID_CHECK)
8
Incorrect option given (ZINT_ERROR_INVALID_OPTION)
9
Internal error (should not happen) (ZINT_ERROR_ENCODING_PROBLEM)
10
Error opening output file (ZINT_ERROR_FILE_ACCESS)
11
Memory allocation (malloc) failure (ZINT_ERROR_MEMORY)
12
Error writing to output file (ZINT_ERROR_FILE_WRITE)
13
Error counterpart of warning if --werror given (ZINT_ERROR_USES_ECI)
14
Error counterpart of warning if --werror given (ZINT_ERROR_NONCOMPLIANT)
15
Error counterpart of warning if --werror given (ZINT_ERROR_HRT_TRUNCATED)
EXAMPLES
Create “out.png” (or “out.gif” if zint built without PNG support) in the current
directory, as a Code 128 symbol.
zint -d 'This Text'
Create “qr.svg” in the current directory, as a QR Code symbol.
zint -b QRCode -d 'This Text' -o 'qr.svg'
Use batch mode to read from an input file “ean13nos.txt” containing 13-digit
GTINs, to create a series of EAN-13 barcodes, formatting the output filenames to
“ean001.gif”, “ean002.gif” etc. using the special character “~”.
zint -b EANX --batch -i 'ean13nos.txt' -o 'ean~~~.gif'
BUGS
Please send bug reports to https://sourceforge.net/p/zint/tickets/.
SEE ALSO
Full documention for zint (and the API libzint and the GUI zint-qt) is available
from
https://zint.org.uk/manual/
and at
https://sourceforge.net/p/zint/docs/manual.txt
CONFORMING TO
Zint is designed to be compliant with a number of international standards,
including:
ISO/IEC 24778:2008, ANSI/AIM BC12-1998, EN 798:1996, AIM ISS-X-24 (1995),
ISO/IEC 15417:2007, EN 12323:2005, ISO/IEC 16388:2007, ANSI/AIM BC6-2000,
ANSI/AIM BC5-1995, AIM USS Code One (1994), ISO/IEC 16022:2006, ISO/IEC
21471:2019, ISO/IEC 15420:2009, AIMD014 (v 1.63) (2008), ISO/IEC 24723:2010,
ISO/IEC 24724:2011, ISO/IEC 20830:2021, ISO/IEC 16390:2007, ISO/IEC 16023:2000,
ISO/IEC 24728:2006, ISO/IEC 15438:2015, ISO/IEC 18004:2015, ISO/IEC 23941:2022,
AIM ITS/04-023 (2022)
COPYRIGHT
Copyright © 2023 Robin Stuart. Released under GNU GPL 3.0 or later.
AUTHOR
Robin Stuart robin@zint.org.uk
[1] See the Homebrew website https://brew.sh.
[2] In Unicode contexts, BMP stands for Basic Multilingual Plane, the plane 0
codeset from U+0000 to U+D7FF and U+E000 to U+FFFF (i.e. excluding surrogates).
Not to be confused with the Windows Bitmap file format BMP!
[3] The symbologies marked with an asterisk (*) in Table
: Barcode Types (Symbologies) above used different names in Zint before version
2.9.0. For example, symbology 29 used the name BARCODE_RSS14. These names are
now deprecated but are still recognised by Zint and will continue to be
supported in future versions.
[4] The background is omitted for vector outputs EMF, EPS and SVG when
--nobackground is given. For raster outputs GIF, PCX, PNG and TIF, the
backgrounds alpha channel is set to zero (fully transparent).
[5] Shift JIS (JIS X 0201 Roman) re-maps two ASCII characters: backslash (\) to
the yen sign (¥), and tilde (~) to overline (U+203E).
[6] ISO/IEC 646 Invariant is a subset of ASCII with 12 characters undefined: #,
$, @, [, \, ], ^, `, {, |, }, ~.
[7] BARCODE_MEMORY_FILE textual formats EPS and SVG will have Unix newlines (LF)
on both Windows and Unix, i.e. not CR+LF on Windows.
[8] The height value is ignored for Aztec (including HIBC and Aztec Rune), Code
One, Data Matrix (including HIBC), DotCode, Grid Matrix, Han Xin, MaxiCode, QR
Code (including HIBC, Micro QR, rMQR and UPNQR), and Ultracode - all of which
have a fixed width-to-height ratio (or, in the case of Code One, a fixed
height).
[9] For Windows, outfile is assumed to be UTF-8 encoded.
[10] The BARCODE_BIND_TOP flag is set by default for DPD - see 6.1.10.7 DPD
Code.
[11] The BARCODE_BIND flag is always set for Codablock-F, Code 16K and Code 49.
Special considerations apply to ITF-14 - see 6.1.2.6 ITF-14.
[12] Codablock-F, Code 16K, Code 49, EAN-2 to EAN-13, ISBN, ITF-14, UPC-A and
UPC-E have compliant quiet zones added by default.
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
[13] ZINT_CAP_EANUPC was previously named ZINT_CAP_EXTENDABLE, which is still
recognised.
[14] BARCODE_CODE128AB previously used the name BARCODE_CODE128B, which is still
- API: add new zint_symbol `dpmm` field for output resolution (BMP/ EMF/PCX/PNG/TIF only, i.e. excluding EPS, GIF & SVG) - Add support for specifying scale by X-dimension and resolution with new option `--scalexdimdp` for CLI/Tcl & new API function `ZBarcode_Scale_From_XdimDp()` (+ `ZBarcode_XdimDp_From_Scale()` & `ZBarcode_Default_Xdim()`) and new GUI popup; manual: document - BMP/EMF/PCX/PNG/TIF: use new `dpmm` resolution field (for EMF following Inkscape) - backend_qt: add `dpmm()`, `vectorWidth()`, `vectorHeight()`, `noPng()`, `getVersion()`, `takesGS1AIData()`, & `XdimDp` stuff incl. new `QZintXdimDp` struct for passing around scale vars & use in `getAsCLI()`; add comments - Raise `scale` limit to 200 (from 100) to allow for large dpmm - output: create directories & subdirectories as necessary for output path using new function `out_fopen()` and use in BMP/EMF/ EPS/GIF/PCX/PNG/SVG/TIF - DPLEIT/DPIDENT: format HRT according to (incomplete) documentation, and set default height to 72X (from 50X) - CODE128B renamed to CODE128AB as can use subsets A and/or B - CODABAR: fix minimum height calc - EMF: fix indexing of handles (zero-based not 1-based) - GUI: fix symbology zap (previous technique of clearing and re-loading settings without doing a sync no longer works); fix UPCEAN guard descent enable - MAILMARK: better error message if input < 14 characters - GUI: add "Default" button for DAFT tracker ratio & enable/disable various default buttons; use new `takesGS1AIData()` to enable/disable GS1-specific checkboxes - CLI: use new `validate_float()` to parse float options (7 significant digits allowed only, no scientific notation) - DATAMATRIX/GRIDMATRIX/PDF417/QR/ULTRA: micro-optimize structapp ID parse - library/CLI: fiddle with static asserts (make CHAR_BIT sensitive, supposedly) - win32/README: update building libpng (assembly removed) - README.linux: document incompatibility of Qt6 >= 6.3 - manual: expand Barcode Studio waffle - test suite: change range separator to hyphen and allow multiple excludes
2022-12-03 10:39:01 +13:00
recognised.