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json2dcm(1)			  OFFIS	DCMTK			   json2dcm(1)

NAME
       json2dcm	- Convert JSON document	to DICOM file or data set

SYNOPSIS
       json2dcm	[options] jsonfile-in dcmfile-out

DESCRIPTION
       The json2dcm utility converts the contents of a JSON (JavaScript	Object
       Notation)  document  to	a  binary  DICOM  file	or  data set. The JSON
       document	is expected to conform to the 'DICOM JSON Model' as defined in
       DICOM Part 18 Section F.	Such JSON files	can be	created,  e.g.,	 using
       the dcm2json tool.

PARAMETERS
       jsonfile-in  JSON input filename	to be converted	("-" for stdin)

       dcmfile-out  DICOM output filename ("-" for stdout)

OPTIONS
   general options
	 -h   --help
		print this help	text and exit

	      --version
		print version information and exit

	      --arguments
		print expanded command line arguments

	 -q   --quiet
		quiet mode, print no warnings and errors

	 -v   --verbose
		verbose	mode, print processing details

	 -d   --debug
		debug mode, print debug	information

	 -ll  --log-level  [l]evel: string constant
		(fatal,	error, warn, info, debug, trace)
		use level l for	the logger

	 -lc  --log-config  [f]ilename:	string
		use config file	f for the logger

   input options
       input file format:

	 +f   --read-meta-info
		read meta information if present (default)

	 -f   --ignore-meta-info
		ignore file meta information

   processing options
       unique identifiers:

	 +Ug  --generate-new-uids
		generate new Study/Series/SOP Instance UID

	 -Uo  --dont-overwrite-uids
		do not overwrite existing UIDs (default)

	 +Uo  --overwrite-uids
		overwrite existing UIDs

       bulkdata	URI handling:

	 +Bu  --parse-bulkdata-uri
		parse Bulkdata URIs (default)

	 -Bu  --ignore-bulkdata-uri
		ignore Bulkdata	URIs

	 +Bd  --add-bulkdata-dir  [d]irectory: string
		add d to list of permitted bulk	data sources

       handling	of arrays with multiple	data sets:

	 -ar  --array-reject
		reject multiple	data sets (default)

	 +as  --array-select  [n]umber:	integer
		select data set	n from array

	 +ar  --array-sequence
		store all data sets in private sequence

   output options
       output file format:

	 +F   --write-file
		write file format (default)

	 -F   --write-dataset
		write data set without file meta information

	 +Fu  --update-meta-info
		update particular file meta information

       output transfer syntax:

	 +t=  --write-xfer-same
		write with same	TS as input (default)

	 +te  --write-xfer-little
		write with explicit VR little endian TS

	 +tb  --write-xfer-big
		write with explicit VR big endian TS

	 +ti  --write-xfer-implicit
		write with implicit VR little endian TS

	 +td  --write-xfer-deflated
		write with deflated explicit VR	little endian TS

       error handling:

	 -E   --stop-on-error
		do not write if	document is invalid (default)

	 +E   --ignore-errors
		attempt	to write even if document is invalid

       post-1993 value representations:

	 +u   --enable-new-vr
		enable support for new VRs (UN/UT) (default)

	 -u   --disable-new-vr
		disable	support	for new	VRs, convert to	OB

       length encoding in sequences and	items:

	 +e   --length-explicit
		write with explicit lengths (default)

	 -e   --length-undefined
		write with undefined lengths

       charset handling:

	 +c   --charset-accept
		write with the given charset in	JSON (default)

	 -c   --charset-replace
		replace	the given charset in JSON with UTF-8

       deflate compression level (only with --write-xfer-deflated):

	 +cl  --compression-level  [l]evel: integer (default: 6)
		0=uncompressed,	1=fastest, 9=best compression

NOTES
       The basic structure of the JSON input expected looks like the following
       (see DICOM Part 18 Section F for	details):

       {
	   "00080005": {
	       "vr": "CS",
	       "Value":	[
		   "ISO_IR 192"
	       ]
	   },
	   "00080020": {
	       "vr": "DT",
	       "Value":	[
		   "20130409"
	       ]
	   },
	   "00080030": {
	       "vr": "TM",
	       "Value":	[
		   "131600.0000"
	       ]
	   },
	   "00080050": {
	       "vr": "SH",
	       "Value":	[
		   "11235813"
	       ]
	   },
	   "00080056": {
	       "vr": "CS",
	       "Value":	[
		   "ONLINE"
	       ]
	   },
	   "00080061": {
	       "vr": "CS",
	       "Value":	[
		   "CT",
		   "PET"
	       ]
	   },
	   "00080090": {
	       "vr": "PN",
	       "Value":	[
		 {
		   "Alphabetic": "^Bob^^Dr."
		 }
	       ]
	   },
	   "00081190": {
	       "vr": "UR",
	       "Value":	[
		   "http://wado.nema.org/studies/
		   1.2.392.200036.9116.2.2.2.1762893313.1029997326.945873"
	       ]
	   },
	   "00090010": {
	       "vr": "LO",
	       "Value":	[
		   "Vendor A"
	       ]
	   },
	   "00091002": {
	       "vr": "UN",
	       "InlineBinary": "z0x9c8v7"
	   },
	   "00100010": {
	       "vr": "PN",
	       "Value":	[
		 {
		   "Alphabetic": "Wang^XiaoDong"
		 }
	       ]
	   },
	   "00100020": {
	       "vr": "LO",
	       "Value":	[
		   "12345"
	       ]
	   },
	   "00100021": {
	       "vr": "LO",
	       "Value":	[
		   "Hospital A"
	       ]
	   },
	   "00100030": {
	       "vr": "DA",
	       "Value":	[
		   "19670701"
	       ]
	   },
	   "00100040": {
	       "vr": "CS",
	       "Value":	[
		   "M"
	       ]
	   },
	   "00101002": {
	       "vr": "SQ",
	       "Value":	[
		   {
		       "00100020": {
			   "vr": "LO",
			   "Value": [
			       "54321"
			   ]
		       },
		       "00100021": {
			   "vr": "LO",
			   "Value": [
			       "Hospital B"
			   ]
		       }
		   },
		   {
		       "00100020": {
			   "vr": "LO",
			   "Value": [
			       "24680"
			   ]
		       },
		       "00100021": {
			   "vr": "LO",
			   "Value": [
			       "Hospital C"
			   ]
		       }
		   }
	       ]
	   },
	   "0020000D": {
	       "vr": "UI",
	       "Value":	[
		   "1.2.392.200036.9116.2.2.2.1762893313.1029997326.945873"
	       ]
	   },
	   "00200010": {
	       "vr": "SH",
	       "Value":	[
		   "11235813"
	       ]
	   },
	   "00201206": {
	       "vr": "IS",
	       "Value":	[
		   4
	       ]
	   },
	   "00201208": {
	       "vr": "IS",
	       "Value":	[
		   942
	       ]
	   }
       }

   Character Encoding
       The  JSON format	only supports UTF-8 encoding. Thus the generated DICOM
       file will also contain UTF-8  encoding.	If  the	 JSON  file  does  not
       contain	a  specific  character	set, or	a specific character set other
       than 'ISO_IR 192', a warning will be issued.

   Binary Data,	Bulk Data, and Pixel Data
       The DICOM JSON Model uses 'InlineBinary'	to store attribute  values  of
       binary value representations such as 'OB', 'OW',	'OD', 'OF', 'OL', 'OV'
       etc.  in	 Base64	 encoded  form.	 This is supported in json2dcm for all
       binary attributes, including unencapsulated pixel data.

       The DICOM JSON  Model  also  permits  attribute	values	to  be	stored
       separately  from	 the  JSON  data  set  and  to be referenced through a
       BulkDataURI. This is supported for file URIs that  reference  files  in
       the  local  filesystem.	json2dcm  tool	also  supports	the inofficial
       extension to the	file URI scheme	generated by DCM4CHE, where parameters
       named 'offset' and 'length' are appended	to the file URI	 in  order  to
       refer  to  a  specific  part  of	a file.	HTTP URIs as well as URIs that
       identify	another	part in	a MIME multipart/related structure are not yet
       supported in json2dcm. If the command line option --ignore-bulkdata-uri
       is specified, then all bulk data	URIs are ignored and  attributes  with
       bulk data will be written with empty value.

       Finally,	 encapsulated  (in  particular,	 compressed) pixel data	is not
       supported by json2dcm because the syntax	of the DICOM  JSON  Model  for
       this specific case is not defined in the	DICOM standard yet.

   Arrays of Data Sets
       The  DICOM  JSON	 Model	uses a JSON array structure to return multiple
       data sets in DICOMweb services such as WADO-RS or QIDO-RS. JSON	arrays
       containing  a  single  DICOM  data  set are automatically recognized by
       json2dcm	and treated like a data	 set  without  the  surrounding	 array
       structure.  JSON	 arrays	 containing multiple data sets are rejected by
       default.	Alternatively, the --array-select option can be	used to	select
       one data	set from the  array  to	 be  converted.	 The  --array-sequence
       option  causes  all  data  sets	to be written as sequence items	into a
       single private sequence with attribute  tag  (0009,1000).  Such	files,
       which  are mostly intended for debugging	purposes, can be recognized by
       the  private  creator  element  (0009,0010),  which   has   the	 value
       'JSON2DCM_LIST_OF_DATASETS'.

   Trailing Commas
       Trailing	 commas	 are  not  permitted  in JSON, but json2dcm will still
       accept such JSON	data sets without warning  or  error  message  because
       they  are  handled  gracefully  by  the	underlying  JSON parser. Users
       should, therefore, not assume that  a  JSON  data  set  is  valid  just
       because	json2dcm  accepts it. This tool	is not designed	as a validator
       for JSON	or the DICOM JSON Model.

LOGGING
       The level of logging output of  the  various  command  line  tools  and
       underlying  libraries  can  be  specified by the	user. By default, only
       errors and warnings are written to the  standard	 error	stream.	 Using
       option  --verbose  also	informational messages like processing details
       are reported. Option --debug can	be used	to get	more  details  on  the
       internal	 activity,  e.g.  for debugging	purposes. Other	logging	levels
       can be selected using option --log-level. In --quiet  mode  only	 fatal
       errors  are reported. In	such very severe error events, the application
       will usually terminate. For  more  details  on  the  different  logging
       levels, see documentation of module 'oflog'.

       In  case	 the logging output should be written to file (optionally with
       logfile rotation), to syslog (Unix) or the event	log  (Windows)	option
       --log-config  can  be  used.  This  configuration  file also allows for
       directing only certain messages to a particular output stream  and  for
       filtering  certain  messages  based  on the module or application where
       they are	generated.  An	example	 configuration	file  is  provided  in
       <etcdir>/logger.cfg.

COMMAND	LINE
       All  command  line  tools  use  the  following notation for parameters:
       square brackets enclose optional	 values	 (0-1),	 three	trailing  dots
       indicate	 that multiple values are allowed (1-n), a combination of both
       means 0 to n values.

       Command line options are	distinguished from parameters by a leading '+'
       or '-' sign, respectively. Usually, order and position of command  line
       options	are  arbitrary	(i.e.  they  can appear	anywhere). However, if
       options are mutually exclusive the rightmost appearance is  used.  This
       behavior	 conforms  to  the  standard  evaluation  rules	of common Unix
       shells.

       In addition, one	or more	command	files can be specified	using  an  '@'
       sign  as	 a  prefix to the filename (e.g. @command.txt).	Such a command
       argument	is replaced by the content  of	the  corresponding  text  file
       (multiple  whitespaces  are  treated  as	a single separator unless they
       appear between two quotation marks) prior to  any  further  evaluation.
       Please  note  that  a command file cannot contain another command file.
       This simple but effective  approach  allows  one	 to  summarize	common
       combinations  of	 options/parameters  and  avoids longish and confusing
       command lines (an example is provided in	file <datadir>/dumppat.txt).

EXIT CODES
       The dcm2json utility uses the following exit  codes  when  terminating.
       This  enables  the  user	 to  check  for	the reason why the application
       terminated.

   general
       EXITCODE_NO_ERROR			       0
       EXITCODE_COMMANDLINE_SYNTAX_ERROR	       1

   input file errors
       EXITCODE_CANNOT_READ_INPUT_FILE		       20

   output file errors
       EXITCODE_CANNOT_WRITE_OUTPUT_FILE	       40

   processing errors
       EXITCODE_INVALID_JSON_CONTENT		       65
       EXITCODE_BULKDATA_URI_NOT_SUPPORTED	       66

ENVIRONMENT
       The json2dcm utility will  attempt  to  load  DICOM  data  dictionaries
       specified  in the DCMDICTPATH environment variable. By default, i.e. if
       the  DCMDICTPATH	 environment   variable	  is   not   set,   the	  file
       <datadir>/dicom.dic  will be loaded unless the dictionary is built into
       the application (default	for Windows).

       The  default  behavior  should  be  preferred   and   the   DCMDICTPATH
       environment  variable  only used	when alternative data dictionaries are
       required. The DCMDICTPATH environment variable has the same  format  as
       the  Unix  shell	PATH variable in that a	colon (':') separates entries.
       On Windows systems, a semicolon (';') is	used as	a separator. The  data
       dictionary  code	 will  attempt	to  load  each	file  specified	in the
       DCMDICTPATH environment variable. It is an error	if no data  dictionary
       can be loaded.

SEE ALSO
       dcm2json(1) dump2dcm(2)

COPYRIGHT
       Copyright  (C)  2024-2025  by OFFIS e.V., Escherweg 2, 26121 Oldenburg,
       Germany.

Version	3.7.0			Mon Dec	15 2025			   json2dcm(1)

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