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Add Codablock-F to manual
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docs/manual.txt
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docs/manual.txt
@ -1075,21 +1075,18 @@ numeric input (digits 0-9).
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6.1.2.2 IATA Code 2 of 5
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6.1.2.2 IATA Code 2 of 5
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------------------------
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------------------------
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Used for baggage handling in the air-transport industry by the International
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Used for baggage handling in the air-transport industry by the International
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Air
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Air Transport Agency, this self-checking code will encode any length numeric input
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Transport Agency, this self-checking code will encode any length numeric input
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(digits 0-9) and does not include a check digit.
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(digits 0-9) and does not include a check digit.
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6.1.2.3 Industrial Code 2 of 5
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6.1.2.3 Industrial Code 2 of 5
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------------------------------
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------------------------------
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Industrial Code 2 of 5 can encode any length numeric input (digits 0-9) and
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Industrial Code 2 of 5 can encode any length numeric input (digits 0-9) and
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does
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does not include a check digit.
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not include a check digit.
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6.1.2.4 Interleaved Code 2 of 5
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6.1.2.4 Interleaved Code 2 of 5
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-------------------------------
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-------------------------------
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This self-checking symbology encodes pairs of numbers, and so can only encode
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This self-checking symbology encodes pairs of numbers, and so can only encode
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an
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an even number of digits (0-9). If an odd number of digits is entered a leading
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even number of digits (0-9). If an odd number of digits is entered a leading
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zero is added by Zint. No check digit is added.
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zero is added by Zint. No check digit is added.
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6.1.2.5 Code 2 of 5 Data Logic
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6.1.2.5 Code 2 of 5 Data Logic
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@ -1101,7 +1098,7 @@ input (digits 0-9).
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--------------
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--------------
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ITF-14, also known as UPC Shipping Container Symbol or Case Code is based on
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ITF-14, also known as UPC Shipping Container Symbol or Case Code is based on
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Interleaved Code 2 of 5 and requires a 13 digit numeric input (digits 0-9). One
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Interleaved Code 2 of 5 and requires a 13 digit numeric input (digits 0-9). One
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modulo-10 check digit is calculated.
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modulo-10 check digit is added by Zint.
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6.1.2.7 Deutsche Post Leitcode
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6.1.2.7 Deutsche Post Leitcode
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------------------------------
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------------------------------
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@ -1139,8 +1136,8 @@ UPC-E is a zero-compressed version of UPC-A developed for smaller packages. The
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code requires a 6 digit article number (digits 0-9). The check digit is
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code requires a 6 digit article number (digits 0-9). The check digit is
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calculated by Zint. EAN-2 and EAN-5 add-on symbols can be added using the +
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calculated by Zint. EAN-2 and EAN-5 add-on symbols can be added using the +
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character as with UPC-A. In addition Zint also supports Number System 1
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character as with UPC-A. In addition Zint also supports Number System 1
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encoding
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encoding by entering a 7-digit article number stating with the digit 1. For
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by entering a 7-digit article number stating with the digit 1. For example:
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example:
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zint --barcode=37 -d 1123456
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zint --barcode=37 -d 1123456
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@ -1167,8 +1164,7 @@ will encode a stand-alone EAN-5, whereas
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zint --barcode=13 -d 7432365+54321
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zint --barcode=13 -d 7432365+54321
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will encode an EAN-8 symbol with an EAN-5 add-on. As before these results can
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will encode an EAN-8 symbol with an EAN-5 add-on. As before these results can
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be
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be achieved using the API:
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achieved using the API:
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my_symbol->symbology = BARCODE_EANX;
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my_symbol->symbology = BARCODE_EANX;
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@ -1176,14 +1172,13 @@ error = ZBarcode_Encode_and_Print(my_symbol, "54321");
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error = ZBarcode_Encode_and_Print(my_symbol, "7432365+54321");
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error = ZBarcode_Encode_and_Print(my_symbol, "7432365+54321");
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All of the EAN symbols include check data which is added by Zint.
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All of the EAN symbols include check digits which are added by Zint.
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6.1.4.2 SBN, ISBN and ISBN-13
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6.1.4.2 SBN, ISBN and ISBN-13
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-----------------------------
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-----------------------------
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EAN-13 symbols (also known as Bookland EAN-13) can also be produced from
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EAN-13 symbols (also known as Bookland EAN-13) can also be produced from
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9-digit
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9-digit SBN, 10-digit ISBN or 13-digit ISBN-13 data. The relevant check digit needs
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SBN, 10-digit ISBN or 13-digit ISBN-13 data. The relevant check digit needs to
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to be present in the input data and will be verified before the symbol is
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be present in the input data and will be verified before the symbol is
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generated. In addition EAN-2 and EAN-5 add-on symbols can be added using the +
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generated. In addition EAN-2 and EAN-5 add-on symbols can be added using the +
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symbol as with UPC symbols.
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symbol as with UPC symbols.
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@ -1191,8 +1186,7 @@ symbol as with UPC symbols.
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-------------
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-------------
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Also known as Plessey Code, this symbology was developed by the Plessey Company
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Also known as Plessey Code, this symbology was developed by the Plessey Company
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Ltd. in the UK. The symbol can encode any length data consisting of digits
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Ltd. in the UK. The symbol can encode any length data consisting of digits
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(0-9)
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(0-9) or letters A-F and includes a CRC check digit.
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or letters A-F and includes a CRC check digit.
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6.1.6 MSI Plessey
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6.1.6 MSI Plessey
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-----------------
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-----------------
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@ -1223,15 +1217,15 @@ length of ASCII text input. Telepen includes a modulo-127 check digit.
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Telepen Numeric allows compression of numeric data into a Telepen symbol. Data
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Telepen Numeric allows compression of numeric data into a Telepen symbol. Data
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can consist of pairs of numbers or pairs consisting of a numerical digit
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can consist of pairs of numbers or pairs consisting of a numerical digit
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followed an X character. For example: 466333 and 466X33 are valid codes whereas
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followed an X character. For example: 466333 and 466X33 are valid codes whereas
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46X333 is not (the digit pair "X3" is not valid). Includes a modulo-127 check
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46X333 is not (the digit pair "X3" is not valid). Telepen Numeric includes a
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digit.
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modulo-127 check digit which is added by Zint.
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6.1.8 Code 39
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6.1.8 Code 39
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-------------
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-------------
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6.1.8.1 Standard Code 39 (ISO 16388)
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6.1.8.1 Standard Code 39 (ISO 16388)
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------------------------------------
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------------------------------------
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Standard Code 39 was developed in 1974 by Intermec. Input data can be of any
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Standard Code 39 was developed in 1974 by Intermec. Input data can be of any
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length and supports the characters 0-9, AZ, dash (-), full stop (.), space,
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length and can include the characters 0-9, A-Z, dash (-), full stop (.), space,
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asterisk (*), dollar ($), slash (/), plus (+) and percent (%). The standard
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asterisk (*), dollar ($), slash (/), plus (+) and percent (%). The standard
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does not require a check digit but a modulo-43 check digit can be added if
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does not require a check digit but a modulo-43 check digit can be added if
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required by setting option_2 = 1 or using --ver=1.
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required by setting option_2 = 1 or using --ver=1.
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@ -1251,7 +1245,8 @@ check digits are added by Zint.
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6.1.8.4 PZN
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6.1.8.4 PZN
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-----------
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-----------
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PZN is a Code 39 based symbology used by the pharmaceutical industry in
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PZN is a Code 39 based symbology used by the pharmaceutical industry in
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Germany. PZN encodes a 6 digit number and includes a modulo-10 check digit.
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Germany. PZN encodes a 6 digit number to which Zint will add a modulo-10
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check digit.
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6.1.8.5 LOGMARS
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6.1.8.5 LOGMARS
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---------------
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---------------
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@ -1263,8 +1258,8 @@ check digit.
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6.1.8.6 Code 32
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6.1.8.6 Code 32
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---------------
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---------------
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A variation of Code 39 used by the Italian Ministry of Health ("Ministero della
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A variation of Code 39 used by the Italian Ministry of Health ("Ministero della
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Sanità") for encoding identifiers on pharmaceutical products. Requires a
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Sanità") for encoding identifiers on pharmaceutical products. This symbology
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numeric input up to 8 digits in length. Check digit is added by Zint.
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requires a numeric input up to 8 digits in length. A check digit is added by Zint.
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6.1.8.7 HIBC Code 39
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6.1.8.7 HIBC Code 39
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--------------------
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--------------------
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@ -1298,38 +1293,38 @@ and uses a three-mode system to compress the data into a smaller symbol. Zint
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automatically switches between modes and adds a modulo-103 check digit. Code
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automatically switches between modes and adds a modulo-103 check digit. Code
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128 is the default barcode symbology used by Zint. In addition Zint supports
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128 is the default barcode symbology used by Zint. In addition Zint supports
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the encoding of Latin-1 (non-English) characters in Code 128 symbols [1]. The
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the encoding of Latin-1 (non-English) characters in Code 128 symbols [1]. The
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Latin-1 character set is shown in Appendix A .
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Latin-1 character set is shown in Appendix A.
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6.1.11.2 Code 128 Subset B
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6.1.11.2 Code 128 Subset B
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--------------------------
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--------------------------
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It is sometimes advantageous to stop Code 128 from using subset mode C which
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It is sometimes advantageous to stop Code 128 from using subset mode C which
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compresses numerical data. The BARCODE_CODE128B option (AKA symbology 60)
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compresses numerical data. The BARCODE_CODE128B option (symbology 60)
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suppresses mode C in favour of mode B.
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suppresses mode C in favour of mode B.
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6.1.11.3 GS1-128
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6.1.11.3 GS1-128
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----------------
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----------------
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A variation of Code 128 also known as UCC/EAN-128, this symbology is defined by
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A variation of Code 128 also known as UCC/EAN-128, this symbology is defined by
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the GS1 General Specification. Application Identifiers (AIs) should be entered
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the GS1 General Specification. Application Identifiers (AIs) should be entered
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using [square brackets] notation. These will be converted to (round brackets)
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using [square bracket] notation. These will be converted to (round brackets)
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for the human readable text. This will allow round brackets to be used in the
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for the human readable text. This will allow round brackets to be used in the
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data strings to be encoded. Fixed length data should be entered at the
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data strings to be encoded. Fixed length data should be entered at the
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appropriate length for correct encoding (see Appendix C). GS1-128 does not
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appropriate length for correct encoding (see Appendix C). GS1-128 does not
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support extended ASCII characters. Check digits for GTIN data (AI 01) are not
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support extended ASCII characters. Check digits for GTIN data (AI 01) are not
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generated and need to be included in input data. The following is an example of
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generated and need to be included in the input data. The following is an example
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a valid GS1-128 input:
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of a valid GS1-128 input:
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zint --barcode=16 -d "[01]98898765432106[3202]012345[15]991231"
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zint --barcode=16 -d "[01]98898765432106[3202]012345[15]991231"
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6.1.11.4 EAN-14
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6.1.11.4 EAN-14
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---------------
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---------------
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A shorter version of GS1-128 which encodes GTIN data only. A 13 digit number is
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A shorter version of GS1-128 which encodes GTIN data only. A 13 digit number is
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required. GTIN check digit and AI (01) are added by Zint.
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required. The GTIN check digit and AI (01) are added by Zint.
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6.1.11.5 NVE-18
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6.1.11.5 NVE-18
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---------------
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---------------
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A variation of Code 128 the Nummber der Versandeinheit standard includes both
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A variation of Code 128 the "Nummber der Versandeinheit" standard includes both
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modulo-10 and modulo-103 check digits. NVE-18 requires a 17 digit numerical
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modulo-10 and modulo-103 check digits. NVE-18 requires a 17 digit numerical
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input.
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input and check digits are added by Zint.
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6.1.11.6 HIBC Code 128
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6.1.11.6 HIBC Code 128
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----------------------
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----------------------
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@ -1340,18 +1335,17 @@ standards.
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6.1.12 GS1 DataBar (ISO 24724)
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6.1.12 GS1 DataBar (ISO 24724)
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------------------------------
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------------------------------
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Also known as RSS (Reduced Spaced Symbology) these symbols are due to replace
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Also known as RSS (Reduced Spaced Symbology) these symbols are due to replace
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GS1-128 symbols starting in 2010 in accordance with the GS1 General
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GS1-128 symbols in accordance with the GS1 General Specification. If a GS1
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Specification. If a GS1 DataBar symbol is to be printed with a 2D component as
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DataBar symbol is to be printed with a 2D component as specified in ISO 24723
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specified in ISO 24723 set option_1 = 2 or use the option --mode=2 at the
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set option_1 = 2 or use the option --mode=2 at the command prompt. See section
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command prompt. See section 6.3 of this manual to find out how to generate
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6.3 of this manual to find out how to generate DataBar symbols with 2D components.
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DataBar symbols with 2D components.
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6.1.12.1 DataBar-14 and DataBar-14 Truncated
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6.1.12.1 DataBar-14 and DataBar-14 Truncated
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--------------------------------------------
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--------------------------------------------
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Also known as RSS-14 this standard encodes a 13 digit item code. A check digit
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Also known as RSS-14 this standard encodes a 13 digit item code. A check digit
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and application identifier of (01) are added by Zint. Note that for full
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and application identifier of (01) are added by Zint. To produce a truncated
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standard compliance symbol height should be greater than or equal to 33
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symbol set the symbol height to a value between 32 and 13. Normal DataBar-14
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modules. For DataBar-14 Truncated set the symbol height to a minimum of 13.
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symbols should have a height of 33 or greater.
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6.1.12.2 DataBar Limited
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6.1.12.2 DataBar Limited
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------------------------
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------------------------
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@ -1369,11 +1363,9 @@ encoding data from a number of AIs in a single symbol. AIs should be encased in
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brackets) before it is included in the human readable text attached to the
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brackets) before it is included in the human readable text attached to the
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symbol. This method allows the inclusion of rounded brackets in the data to be
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symbol. This method allows the inclusion of rounded brackets in the data to be
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encoded. GTIN data (AI 01) should also include the check digit data as this is
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encoded. GTIN data (AI 01) should also include the check digit data as this is
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not calculated by Zint when this
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not calculated by Zint when this symbology is encoded. Fixed length data should
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be entered at the appropriate length for correct encoding (see Appendix C). The
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symbology is encoded. Fixed length data should be entered at the appropriate
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following is an example of a valid DataBar Expanded input:
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length for correct encoding (see Appendix C ). The following is an example of a
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valid DataBar Expanded input
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zint --barcode=31 -d "[01]98898765432106[3202]012345[15]991231"
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zint --barcode=31 -d "[01]98898765432106[3202]012345[15]991231"
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@ -1425,16 +1417,27 @@ error = ZBarcode_Encode(my_symbol, "That");
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error = ZBarcode_Print(my_symbol);
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error = ZBarcode_Print(my_symbol);
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6.2.2 Code 16k (EN 12323)
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-------------------------
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A more sophisticated method is to use some type of line indexing which
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A more sophisticated method is to use some type of line indexing which
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indicates to the barcode reader which order the symbols should be read. This is
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indicates to the barcode reader which order the symbols should be read. This is
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demonstrated by Code 16k which uses a Code128 based system which can stack up
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demonstrated by the symbologies below.
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to 16 rows in a block. This gives a maximum data capacity of 77 characters or
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154 numerical digits and includes two modulo-107 check digits. Code 16k also
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supports extended ASCII character encoding in the same manner as Code 128.
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6.2.3 PDF417 (ISO 15438)
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6.2.2 Codablock-F
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-----------------
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This is a stacked symbology based on Code 128 which can encode ASCII code set
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data up to a maximum length of 2725 characters. The width of the Codablock-F
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symbol can be set using the --cols= option at the command line or option_2.
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Alternatively the height (number of rows) can be set using the --rows= option
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at the command line or by setting option_1. Zint does not support encoding of
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GS1 data in Codablock-F symbols.
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6.2.3 Code 16k (EN 12323)
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-------------------------
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Code 16k uses a Code 128 based system which can stack up to 16 rows in a block.
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This gives a maximum data capacity of 77 characters or 154 numerical digits and
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includes two modulo-107 check digits. Code 16k also supports extended ASCII
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character encoding in the same manner as Code 128.
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6.2.4 PDF417 (ISO 15438)
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------------------------
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------------------------
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Heavily used in the parcel industry, the PDF417 symbology can encode a vast
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Heavily used in the parcel industry, the PDF417 symbology can encode a vast
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amount of data into a small space. Zint supports encoding up to the ISO
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amount of data into a small space. Zint supports encoding up to the ISO
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@ -1444,7 +1447,7 @@ width of the generated PDF417 symbol can be specified at the command line using
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the --cols switch followed by a number between 1 and 30, and the amount of
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the --cols switch followed by a number between 1 and 30, and the amount of
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check digit information can be specified by using the --security switch
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check digit information can be specified by using the --security switch
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followed by a number between 0 and 8 where the number of codewords used for
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followed by a number between 0 and 8 where the number of codewords used for
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check information is determined by 2(value + 1). If using the API these values
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check information is determined by 2^(value + 1). If using the API these values
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are assigned to option_2 and option_1 respectively. The default level of check
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are assigned to option_2 and option_1 respectively. The default level of check
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information is determined by the amount of data being encoded. This symbology
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information is determined by the amount of data being encoded. This symbology
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uses Latin-1 character encoding by default but also supports the ECI encoding
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uses Latin-1 character encoding by default but also supports the ECI encoding
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@ -1452,11 +1455,11 @@ mechanism. A separate symbology ID can be used to encode Health Industry
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Barcode (HIBC) data which adds a leading '+' character and a modulo-49 check
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Barcode (HIBC) data which adds a leading '+' character and a modulo-49 check
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digit to the encoded data.
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digit to the encoded data.
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6.2.4 Compact PDF417
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6.2.5 Compact PDF417
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--------------------
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--------------------
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Also known as truncated PDF417. Options are as for PDF417 above.
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Also known as truncated PDF417. Options are the same as for PDF417 above.
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6.2.5 MicroPDF417 (ISO 24728)
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6.2.6 MicroPDF417 (ISO 24728)
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-----------------------------
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-----------------------------
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A variation of the PDF417 standard, MicroPDF417 is intended for applications
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A variation of the PDF417 standard, MicroPDF417 is intended for applications
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where symbol size needs to be kept to a minimum. 34 predefined symbol sizes are
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where symbol size needs to be kept to a minimum. 34 predefined symbol sizes are
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@ -1469,31 +1472,31 @@ mechanism. A separate symbology ID can be used to encode Health Industry
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Barcode (HIBC) data which adds a leading '+' character and a modulo-49 check
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Barcode (HIBC) data which adds a leading '+' character and a modulo-49 check
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digit to the encoded data.
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digit to the encoded data.
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6.2.6 GS1 DataBar-14 Stacked (ISO 24724)
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6.2.7 GS1 DataBar-14 Stacked (ISO 24724)
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----------------------------------------
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----------------------------------------
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A stacked variation of the GS1 DataBar-14 symbol requiring the same input (see
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A stacked variation of the GS1 DataBar-14 symbol requiring the same input (see
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section 6.1.12.1). The height of this symbol is fixed. The data is encoded in
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section 6.1.12.1). The height of this symbol is fixed. The data is encoded in
|
||||||
two rows of bars with a central finder pattern. This symbol can be generated
|
two rows of bars with a central finder pattern. This symbol can be generated
|
||||||
with a two-dimensional component to make a composite symbol.
|
with a two-dimensional component to make a composite symbol.
|
||||||
|
|
||||||
6.2.7 GS1 DataBar-14 Stacked Omnidirectional (ISO 24724)
|
6.2.8 GS1 DataBar-14 Stacked Omnidirectional (ISO 24724)
|
||||||
--------------------------------------------------------
|
--------------------------------------------------------
|
||||||
Another variation of the GS1 DataBar-14 symbol requiring the same input (see
|
Another variation of the GS1 DataBar-14 symbol requiring the same input (see
|
||||||
section 6.1.12.1). The data is encoded in two rows of bars with a central
|
section 6.1.12.1). The data is encoded in two rows of bars with a central
|
||||||
finder pattern. This symbol can be generated with a two-dimensional component
|
finder pattern. This symbol can be generated with a two-dimensional component
|
||||||
to make a composite symbol.
|
to make a composite symbol.
|
||||||
|
|
||||||
6.2.8 GS1 DataBar Expanded Stacked (ISO 24724)
|
6.2.9 GS1 DataBar Expanded Stacked (ISO 24724)
|
||||||
----------------------------------------------
|
----------------------------------------------
|
||||||
A stacked variation of the GS1 DataBar Expanded symbol for smaller packages.
|
A stacked variation of the GS1 DataBar Expanded symbol for smaller packages.
|
||||||
Input is the same as for GS1 DataBar Expanded (see section 6.1.12.3). In
|
Input is the same as for GS1 DataBar Expanded (see section 6.1.12.3). In
|
||||||
addition the width of the symbol can be altered using the --cols switch or
|
addition the width of the symbol can be altered using the --cols switch or
|
||||||
option_2. In this case the number of columns relates to the number of character
|
option_2. In this case the number of columns relates to the number of character
|
||||||
pairs on each row of the symbol. For symbols with a 2D component the number of
|
pairs on each row of the symbol. This symbol can be generated with a two-
|
||||||
columns must be at least 2. This symbol can be generated with a two-dimensional
|
dimensional component to make a composite symbol. For symbols with a 2D component
|
||||||
component to make a composite symbol.
|
the number of columns must be at least 2.
|
||||||
|
|
||||||
6.2.9 Code 49
|
6.2.10 Code 49
|
||||||
-------------
|
-------------
|
||||||
Developed in 1987 at Intermec, Code 49 is a cross between UPC and Code 39. It
|
Developed in 1987 at Intermec, Code 49 is a cross between UPC and Code 39. It
|
||||||
it one of the earliest stacked symbologies and influenced the design of Code
|
it one of the earliest stacked symbologies and influenced the design of Code
|
||||||
@ -1545,7 +1548,9 @@ 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
|
CC-A (see below) component with the data "(99)1234-abcd". The same results can
|
||||||
be achieved using the API as shown below:
|
be achieved using the API as shown below:
|
||||||
|
|
||||||
my_symbol->symbology = 130;my_symbol->option_1 = 1;
|
my_symbol->symbology = 130;
|
||||||
|
|
||||||
|
my_symbol->option_1 = 1;
|
||||||
|
|
||||||
strcpy(my_symbol->primary, "331234567890");
|
strcpy(my_symbol->primary, "331234567890");
|
||||||
|
|
||||||
@ -1566,7 +1571,7 @@ option_1 variable as shown above.
|
|||||||
This system uses a variation of MicroPDF417 which optimised to fit into a small
|
This system uses a variation of MicroPDF417 which optimised to fit into a small
|
||||||
space. The size of the 2D component and the amount of error correction is
|
space. 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
|
determined by the amount of data to be encoded and the type of linear component
|
||||||
which is being used. CCA can encode up to 56 numeric digits or an alphanumeric
|
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.
|
string of shorter length. To select CC-A use --mode=1.
|
||||||
|
|
||||||
6.3.2 CC-B
|
6.3.2 CC-B
|
||||||
@ -1575,7 +1580,7 @@ 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
|
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
|
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
|
can encode up to 338 numeric digits or an alphanumeric string of shorter
|
||||||
length. To select CCB use --mode=2.
|
length. To select CC-B use --mode=2.
|
||||||
|
|
||||||
6.3.3 CC-C
|
6.3.3 CC-C
|
||||||
----------
|
----------
|
||||||
@ -1684,10 +1689,10 @@ example all of the following inputs are valid data entries:
|
|||||||
6.5.5 Japanese Postal Code
|
6.5.5 Japanese Postal Code
|
||||||
--------------------------
|
--------------------------
|
||||||
Used for address data on mail items for Japan Post. Accepted values are 0-9,
|
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.
|
A-Z and Dash (-). A modulo 19 check digit is added by Zint.
|
||||||
|
|
||||||
6.6 Two-Dimensional Symbols
|
6.6 Two-Dimensional Matrix Symbols
|
||||||
---------------------------
|
----------------------------------
|
||||||
6.6.1 Data Matrix ECC200 (ISO 16022)
|
6.6.1 Data Matrix ECC200 (ISO 16022)
|
||||||
------------------------------------
|
------------------------------------
|
||||||
Also known as Semacode this symbology was developed in 1989 by Acuity CiMatrix
|
Also known as Semacode this symbology was developed in 1989 by Acuity CiMatrix
|
||||||
@ -1741,7 +1746,7 @@ use the option --square and when using the API set the value option_3 =
|
|||||||
DM_SQUARE.
|
DM_SQUARE.
|
||||||
|
|
||||||
Data Matrix Rectangular Extension (DMRE) codes may be generated with the
|
Data Matrix Rectangular Extension (DMRE) codes may be generated with the
|
||||||
following
|
following values as before:
|
||||||
|
|
||||||
---------------------
|
---------------------
|
||||||
Input | Symbol Size
|
Input | Symbol Size
|
||||||
@ -1760,13 +1765,13 @@ Input | Symbol Size
|
|||||||
42 | 26 x 64
|
42 | 26 x 64
|
||||||
---------------------
|
---------------------
|
||||||
|
|
||||||
DMRE may be activated in automatic mode using the option --dmre or by the API
|
DMRE symbol sizes may be activated in automatic size mode using the option
|
||||||
option_3 = DM_DMRE
|
--dmre or by the API option_3 = DM_DMRE
|
||||||
|
|
||||||
6.6.2 QR Code (ISO 18004)
|
6.6.2 QR Code (ISO 18004)
|
||||||
-------------------------
|
-------------------------
|
||||||
Also known as Quick Response Code this symbology was developed by Denso. Four
|
Also known as Quick Response Code this symbology was developed by Denso. Four
|
||||||
levels of error correction are available using the --security= option or
|
levels of error correction are available using the --security= option or by
|
||||||
setting option_1 as shown in the following table.
|
setting option_1 as shown in the following table.
|
||||||
|
|
||||||
-------------------------------------------------------------------------
|
-------------------------------------------------------------------------
|
||||||
@ -1832,10 +1837,10 @@ The maximum capacity of a (version 40) QR Code symbol is 7089 numeric digits,
|
|||||||
used to encode GS1 data. QR Code symbols can by default encode characters in
|
used to encode GS1 data. QR Code symbols can by default encode characters in
|
||||||
the Latin-1 set and Kanji characters which are members of the Shift-JIS
|
the Latin-1 set and Kanji characters which are members of the Shift-JIS
|
||||||
encoding scheme. In addition QR Code supports using other character sets using
|
encoding scheme. In addition QR Code supports using other character sets using
|
||||||
the ECI mechanism. Input should usually be entered as a UTF-8 data with
|
the ECI mechanism. Input should usually be entered as Unicode (UTF-8) with
|
||||||
conversion to Shift-JIS being carried out automatically by Zint. A separate
|
conversion to Shift-JIS being carried out by Zint. A separate symbology ID can
|
||||||
symbology ID can be used to encode Health Industry Barcode (HIBC) data which
|
be used to encode Health Industry Barcode (HIBC) data which adds a leading '+'
|
||||||
adds a leading '+' character and a modulo-49 check digit to the encoded data.
|
character and a modulo-49 check digit to the encoded data.
|
||||||
|
|
||||||
6.6.3 Micro QR Code (ISO 18004)
|
6.6.3 Micro QR Code (ISO 18004)
|
||||||
-------------------------------
|
-------------------------------
|
||||||
@ -1879,9 +1884,8 @@ Characters | Meaning
|
|||||||
13 - 15 | Three digit service code. This depends on your parcel courier.
|
13 - 15 | Three digit service code. This depends on your parcel courier.
|
||||||
----------------------------------------------------------------------------
|
----------------------------------------------------------------------------
|
||||||
|
|
||||||
The primary message can be designated at the command prompt using the
|
The primary message can be set at the command prompt using the --primary= switch.
|
||||||
--primary= switch. The secondary message uses the normal data entry method. For
|
The secondary message uses the normal data entry method. For example:
|
||||||
example:
|
|
||||||
|
|
||||||
zint -o test.eps -b 57 --primary='999999999840012' -d 'Secondary Message Here'
|
zint -o test.eps -b 57 --primary='999999999840012' -d 'Secondary Message Here'
|
||||||
|
|
||||||
@ -2036,15 +2040,14 @@ version T symbols is determined by the length of the input data.
|
|||||||
-----------------
|
-----------------
|
||||||
By default Grid Matrix supports encoding in Latin-1 and Chinese characters
|
By default Grid Matrix supports encoding in Latin-1 and Chinese characters
|
||||||
within the GB 2312 standard set to be encoded in a checkerboard pattern. Input
|
within the GB 2312 standard set to be encoded in a checkerboard pattern. Input
|
||||||
should be entered as a UTF-8 stream with conversion to GB 2312 being carried
|
should be entered as Unicode (UTF-8) with conversion to GB 2312 being carried
|
||||||
out automatically by Zint. The symbology also supports the ECI mechanism. The
|
out automatically by Zint. The symbology also supports the ECI mechanism. The
|
||||||
size of the symbol and the error correction capacity can be specified. If you
|
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
|
specify both of these values then Zint will make a 'best-fit' attempt to
|
||||||
satisfy
|
satisfy both conditions. The symbol size can be specified using the --ver=
|
||||||
both conditions. The symbol size can be specified using the --ver= option or by
|
option or by setting option_2, and the error correction capacity can be
|
||||||
setting option_2, and the error correction capacity can be specified by using
|
specified by using the --security= option or by setting option_1 according to
|
||||||
the --security= option or by setting option_1 according to the following
|
the following tables:
|
||||||
tables:
|
|
||||||
|
|
||||||
---------------------
|
---------------------
|
||||||
Input | Symbol Size
|
Input | Symbol Size
|
||||||
@ -2083,8 +2086,7 @@ produce a symbol which is approximately square, however the width of the symbol
|
|||||||
can be adjusted by using the --cols= option or by setting option_2. Outputting
|
can be adjusted by using the --cols= option or by setting option_2. Outputting
|
||||||
DotCode to raster images (PNG, GIF, BMP, PCX) will require setting the scale of
|
DotCode to raster images (PNG, GIF, BMP, PCX) will require setting the scale of
|
||||||
the image to a larger value than the default (e.g. approx 10) for the dots to
|
the image to a larger value than the default (e.g. approx 10) for the dots to
|
||||||
be
|
be plotted correctly. Approximately 33% of the resulting symbol is comprised of
|
||||||
plotted correctly. Approximately 33% of the resulting symbol is comprised of
|
|
||||||
error correction codewords.
|
error correction codewords.
|
||||||
|
|
||||||
6.6.10 Han Xin Code
|
6.6.10 Han Xin Code
|
||||||
@ -2255,6 +2257,9 @@ QR Code is a registered trademark of Denso Wave Incorporated.
|
|||||||
Microsoft, Windows and the Windows logo are either registered trademarks or
|
Microsoft, Windows and the Windows logo are either registered trademarks or
|
||||||
trademarks of Microsoft Corporation in the United States and/or other countries.
|
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.
|
||||||
|
|
||||||
Zint.org.uk website design and hosting provided by Robert Elliott.
|
Zint.org.uk website design and hosting provided by Robert Elliott.
|
||||||
|
|
||||||
7.2 Patent Issues
|
7.2 Patent Issues
|
||||||
@ -2444,7 +2449,7 @@ for Code-1 and addition of batch processing at the command line. 19/4/2011 &
|
|||||||
|
|
||||||
v2.4.3 - Includes minor bugfixes 16/5/2011
|
v2.4.3 - Includes minor bugfixes 16/5/2011
|
||||||
|
|
||||||
V2.5 – Support for DotCode and Han Xin code. ECI code processing. Output to
|
v2.5 – Support for DotCode and Han Xin code. ECI code processing. Output to
|
||||||
BMP, GIF and PCX. Added bold text option. Many minor bugfixes and improvements.
|
BMP, GIF and PCX. Added bold text option. Many minor bugfixes and improvements.
|
||||||
(Due for release November 2016).
|
(Due for release November 2016).
|
||||||
|
|
||||||
@ -2504,6 +2509,7 @@ international standards:
|
|||||||
> ANSI/AIM BC6-2000 - Uniform Symbology Specification Code 49
|
> ANSI/AIM BC6-2000 - Uniform Symbology Specification Code 49
|
||||||
> ANSI/HIBC 2.3-2009 - The Health Industry Bar Code (HIBC) Supplier Labeling
|
> ANSI/HIBC 2.3-2009 - The Health Industry Bar Code (HIBC) Supplier Labeling
|
||||||
Standard
|
Standard
|
||||||
|
> AIM ISS-X-24 - Uniform Symbology Specification Codablock F
|
||||||
> AIMD013 (v 1.34a) – Information technology – Automaic identification and data
|
> AIMD013 (v 1.34a) – Information technology – Automaic identification and data
|
||||||
capture techniques – Bar code symbology specification – DotCode (Revised
|
capture techniques – Bar code symbology specification – DotCode (Revised
|
||||||
19th Feb 2009)
|
19th Feb 2009)
|
||||||
@ -2832,7 +2838,7 @@ The GS1 General Specification defines a global standard for encoding data about
|
|||||||
products. Data is encoded as a series of number pairs where the first number,
|
products. Data is encoded as a series of number pairs where the first number,
|
||||||
usually shown in (brackets) is an application identifier (AI), and the second
|
usually shown in (brackets) is an application identifier (AI), and the second
|
||||||
is a formatted representation of the data. For example (21)6773 can be read as
|
is a formatted representation of the data. For example (21)6773 can be read as
|
||||||
"Serial Number 6773" where the AI (21) signifies that the data is a consignment
|
"Serial Number 6773" where the AI (21) signifies that the data is a serial
|
||||||
number. Note that when using Zint AI data is entered using [square] brackets.
|
number. Note that when using Zint AI data is entered using [square] brackets.
|
||||||
This allows rounded brackets to be included in the data which is allowed by the
|
This allows rounded brackets to be included in the data which is allowed by the
|
||||||
specification. When the barcode symbol is generated these square brackets are
|
specification. When the barcode symbol is generated these square brackets are
|
||||||
@ -2922,7 +2928,7 @@ C.1 Application Identifiers [1]
|
|||||||
8100 Coupon Extended Code: Number System and Offer
|
8100 Coupon Extended Code: Number System and Offer
|
||||||
8101 Coupon Extended Code: Number System, Offer, End of Offer
|
8101 Coupon Extended Code: Number System, Offer, End of Offer
|
||||||
8102 Coupon Extended Code: Number System preceded by 090 Mutually Agreed
|
8102 Coupon Extended Code: Number System preceded by 090 Mutually Agreed
|
||||||
Between Trading Partners
|
Between Trading Partners
|
||||||
91 Internal Company Codes
|
91 Internal Company Codes
|
||||||
92 Internal Company Codes
|
92 Internal Company Codes
|
||||||
93 Internal Company Codes
|
93 Internal Company Codes
|
||||||
|
Loading…
Reference in New Issue
Block a user