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ucum-lhc

This is the LHC implementation of validation and conversion services based on the Unified Code for Units of Measure (UCUM) code system created by the Regenstrief Institute, Inc.

See our overview page for general information.

This is a work in progress so more capabilities will probably be introduced.

Check out the Demo page

We have a demo page that shows various capabilities. That includes the validation and conversion functions described below. You might want to try that out first.

Get the code

The ucum-lhc code is written in the ECMAScript 6 version of Javascript. Since that version is not yet universally supported, the code is compiled to standard Javascript using the Babel compiler. The code uses Node.js I/O functions and compatible packages, and browserify-fs to replace the I/O functions with code that runs in a browser.

Currently we have code to serve multiple purposes. The core code supports the validation and conversion of UCUM unit expressions as well as a function to search for commensurable units for a specified unit expression. Other code is concerned with importing and exporting the UCUM data, and in supporting the demo page (noted above). If you are looking to include the ucum-lhc core code in your application, download the code as an npm package.

Getting the code as an npm package

You can use the npm package manager to install the ucum-lhc npm package. (npm is automatically installed with Node.js.)

npm install @lhncbc/ucum-lhc --save

This will install the @lhncbc/ucum-lhc directory in your node_modules diretory. The dist subdirectory will contain ucum-lhc.js and ucum-lhc.min.js (minimized version of ucum-lhc.js).

Getting the code as a bower package

You can use the bower package manager to install the ucum-lhc bower package. (If you do not have bower installed on your machine you can install it using npm. See https://bower.io). Install the ucum-lhc package using the bower install command

bower install ucum-lhc

This will install the ucum-lhc directory in your bower_components directory. The dist subdirectory will contain ucum-lhc.js and ucum-lhc.min.js (minimized version of ucum-lhc.js).

Using the code

The ucum-lhc.min.js file (which is the minimized version of the ucum-lhc.js file) includes the source code you need for the validation, conversion and commensurable units functions as well as the ucum code definitions file. We assume that your main motivation for including the ucum-lhc code is to have those capabilities for units of measure on your system.

Server side

To access those capabilities from your server side code, require the npm package and create a UcumLhcUtils object that contains those functions.

var ucum = require('@lhncbc/ucum-lhc');
var utils = ucum.UcumLhcUtils.getInstance();

Client side

To access those capabilities from your client side code, include the ucum-lhc.min.js package in your html file.

<script src="path-to-installed-package/dist/ucum-lhc.min.js"></script>

The validation, conversion and commensurable units functions are available from the ucumPkg.UcumLhcUtils class. In your client side javascript code access those functions via the ucumPkg object. For example,

var parseResp = ucumPkg.UcumLhcUtils.getInstance().validateUnitString(uStr, true);

Function descriptions

Here are the function descriptions:

validateUnitString(uStr, suggest)

This method validates a unit string. It first checks to see if the string passed in is a unit code that is found in the unit codes table. If it is not found it parses the string to see if it resolves to a valid unit string.

If a valid unit cannot be found, the string is tested for some common errors, such as missing brackets or a missing multiplication operator. If found, the error is reported in the messages array that is returned.

If a valid unit cannot be found and an error cannot be discerned, this may return, if requested, a list of suggested units in the suggestions array that is returned. Suggestions are based on matching the expression with unit names and synonyms.

  • @param uStr the string to be validated;
  • @param suggest a boolean to indicate whether or not suggestions are requested for a string that cannot be resolved to a valid unit; true indicates suggestions are wanted; false indicates they are not, and is the default if the parameter is not specified;
  • @returns an object with five properties:
    • 'status' will be 'valid' (the uStr is a valid UCUM code), 'invalid' (the uStr is not a valid UCUM code, and substitutions or suggestions may or may not be returned, depending on what was requested and found); or 'error' (an input or programming error occurred);
    • 'ucumCode' the valid ucum code, which may differ from what was passed in (e.g., if 'Gauss' is passed in, this will contain 'G') OR null if the string was flagged as invalid or an error occurred;
    • 'msg' is an array of messages, if the string is invalid or an error occurred, indicating the problem, or an explanation of a substitution such as the substitution of 'G' for 'Gauss', or an empty array if no messages were generated ;
    • 'unit' which is null if no unit is found, or a hash for a unit found:
      • 'code' is the unit's ucum code (G in the above example);
      • 'name' is the unit's name (Gauss in the above example); and
      • 'guidance' is the unit's guidance/description data.
    • 'suggestions' if suggestions were requested and found, this is an array of one or more hash objects. Each hash contains three elements:
      • 'msg' which is a message indicating what part of the uStr input parameter the suggestions are for;
      • 'invalidUnit' which is the unit expression the suggestions are for; and
      • 'units' which is an array of data for each suggested unit found. Each array will contain the unit code, the unit name and the unit guidance (if any). If no suggestions were requested and found, this property is not returned.

For example, to validate a unit string of m2/g4 (assuming you have created a utils object as described above):

 var returnObj = utils.validateUnitString('m2/g4');
 if (returnObj['status'] === 'valid')
   /* the string is valid; returnObj['ucumCode'] will contain the valid 
      ucum code (may differ from what was entered), returnObj['msg'] may 
      contain a message or messages describing substitution(s) for the
      code entered, and retObj['unit'] will contain 3 pieces of data for the 
      unit - code, name and guidance (provides information about the unit, 
      such as how the unit is used, etc.)*/
 else
   /* returnObj['status'] will be 'invalid' and */
   /* returnOb['msg'] will have a message describing the problem */

For information on unit string formatting, look at the Ucum Unit Expression Validation section on the demo page.
There is a button labeled "Show entry hints". That will give you a short description of unit strings, and includes a link to the UCUM Specification, where you can find the full deal.

convertUnitTo(fromUnitCode, fromVal, toUnitCode, suggest, molecularWeight)

This method converts a number of one type of unit to the equivalent number of another type of unit. Note that the number returned is not trimmed or rounded to any particular precision or significant digits.

Disclaimer: Conversion results should be verified independently before using them in actual clinical settings.

  • @param fromUnitCode the unit code/expression/string of the unit to be converted;
  • @param fromVal the number of "from" units to be converted to "to" units;
  • @param toUnitCode the unit code/expression/string of the unit that the from field is to be converted to;
  • @param suggest a boolean to indicate whether or not suggestions are requested for a string that cannot be resolved to a valid unit; true indicates suggestions are wanted; false indicates they are not, and is the default if the parameter is not specified;
  • @param molecularWeight the molecular weight of the substance in question when a conversion is being requested from mass to moles and vice versa. It is ignored if neither unit includes a measurement in moles. In such cases the mole-based unit must have a single mole unit in the numerator and the mass-based unit must have a single mass unit in the numerator.
  • @returns a hash with six elements:
    • 'status' the will be: 'succeeded' if the conversion was successfully calculated; 'failed' if the conversion could not be made, e.g., if the units are not commensurable; or 'error' if an error occurred;
    • 'toVal' the numeric value indicating the conversion amount, or null if the conversion failed (e.g., the units are not commensurable);
    • 'msg' is an array of messages, if the string is invalid or an error occurred, indicating the problem, or an explanation of a substitution such as the substitution of 'G' for 'Gauss', or an empty array if no messages were generated;
    • 'suggestions' if suggestions were requested and found, this is a hash that contains at most two elements:
      • 'from' which, if the fromUnitCode input parameter or one or more of its components could not be found, is an array one or more hash objects. Each hash contains three elements:
        • 'msg' which is a message indicating what unit expression the suggestions are for;
        • 'invalidUnit' which is the unit expression the suggestions are for; and
        • 'units' which is an array of data for each suggested unit found. Each array will contain the unit code, the unit name and the unit guidance (if any). If no suggestions were found for the fromUnitCode this element will not be included.
      • 'to' which, if the "to" unit expression or one or more of its components could not be found, is an array one or more hash objects. Each hash contains three elements:
        • 'msg' which is a message indicating what part of the toUnitCode input parameter the suggestions are for;
        • 'invalidUnit' which is the unit expression the suggestions are for; and
        • 'units' which is an array of data for each suggested unit found. Each array will contain the unit code, the unit name and the unit guidance (if any). If no suggestions were found for the toUnitCode this element will not be included. No 'suggestions' element will be included in the returned hash object if none were found, whether or not they were requested.
    • 'fromUnit' the unit object for the fromUnitCode passed in; returned in case it's needed for additional data from the object; and
    • 'toUnit' the unit object for the toUnitCode passed in; returned in case it's needed for additional data from the object.

For example, to convert 27 U.S. fathoms to U.S. inches (assuming you have created a utils object as described above):

var returnObj = utils.convertUnitTo('[fth_us]', 27, '[in_us]');
if (returnObj['status'] === 'succeeded')
  /* the conversion was successful.
     returnObj['toVal'] will contain the conversion result
       (~1943.9999999999998 - number, not formatted string)
     returnObj['msg'] will be null
     returnObj['fromUnit'] will contain the unit object for [fth_us]
     returnObj['toUnit'] will contain the unit object for [in_us]
   */
else if (returnObj['status'] === 'failed')
  /* the conversion could not be made.
     returnObj['toVal'] will be null
     returnObj['msg'] will contain a message describing the failure
     returnObj['fromUnit'] will be null
     returnObj['toUnit'] will be null
   */
else (returnObj['status'] === 'error)
  /* the conversion encountered an error
     returnObj['toVal'] will be null
     returnObj['msg'] will contain a message describing the error
     returnObj['fromUnit'] will be null
     returnObj['toUnit'] will be null
   */

If you want to know what unit types a particular unit can be converted to, the checkSynonyms function will provide a list of commensurable units for a specified unit expression.

checkSynonyms(theSyn)

This method searches for units that include a single search term (theSyn) in the unit's synonyms data and/or the unit name. It returns all units found with a match. This is useful when an exact match for a term is not found. For example, submitting the term "pound" to the validUnitString method will result in a "not found" response. Submitting it to this method will return with a list of possible pound units.

  • @param theSyn the term to search for

  • @returns a hash with three elements:

    • 'status' contains the status of the request, which can be 'error', 'failed' or 'succeeded';
    • 'msg' contains a message for an error or if no units were found; and
    • 'units' which is an array that contains one hash for each unit found:
      • 'code' is the unit's code;
      • 'name' is the unit's name; and
      • 'guidance' is the guidance, or description, for the unit.

    For example, the 'units' array returned for a search term of "pound" would be:

    • {"code":"[lb_av]","name":"pound - international","guidance":"standard unit used in the US and internationally"}
    • {"code":"[lbf_av]","name":"pound force - US","guidance":"only rarely needed in health care - see [lb_av] which is the more common unit to express weight"}
    • {"code":"[lb_tr]","name":"pound - troy","guidance":"only used for weighing precious metals"}
    • {"code":"[lb_ap]","name":"pound - apothecary","guidance":null}
    • {"code":"[psi]","name":"pound per square inch","guidance":null}

(assuming you have created a utils object as described above):

var returnObj = utils.checkSynonyms('pound');
if (returnObj['status'] === 'succeeded')
  /* one or more units was found.  returnObj['msg'] will be null and the
     returnObj['units'] array will contain the data listed above */
else if (returnObj['status'] === 'failed')
  /* no units were found and the returnObj['msg'] string will indicate that
  */
else
  /* returnObj['status'] will be 'error' and returnObj['msg'] will indicate
     what the error was. */

Download the GitHub repository

The code available here on GitHub includes functions and scripts to perform additional functions, mainly to convert ucum data from various formats to the data used by our code as well as the code that supports the demo page. Click on the green "Clone or download" button above to download the repository.

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