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biojs-io-biom

NPM version Build Status Coverage Status License DOI DOI

Parses biom files

Requirements

For use in node this module is tested with nodejs version 4.2 or higher. Specifically versions 0.x are not working (still standard in Ubuntu prior to 16.04).

Included libraries are:

Getting Started

node

Install the module with:

npm install biojs-io-biom

Then you can use it in node like this:

var Biom = require('biojs-io-biom').Biom;
biom = new Biom(); // "creates new biom object"

browser

To use the biojs-io-biom module in the browser you need the build/biom.js file:

<!-- ... -->
<script src="biom.js"></script>
<script type="text/javascript">
var Biom = require('biojs-io-biom').Biom;
biom = new Biom();
</script>
<!-- ... -->

bower

You can also use bower to install the biojs-io-biom component for use in the browser:

bower install biojs-io-biom

The file you need will be under bower_components/biojs-io-biom/build/biom.js in this case.

Documentation

See the biom format specification (version 1.0) for more details on the file format.

How to cite

Please cite our article at f1000 Research that describes this module:

Markus J. Ankenbrand, Niklas Terhoeven, Sonja Hohlfeld, Frank Förster, and Alexander Keller.
biojs-io-biom, a BioJS component for handling data in Biological Observation Matrix (BIOM) format[version 2; referees: 1 approved, 2 approved with reservations].
F1000Research 2017, 5:2348. doi: 10.12688/f1000research.9618.2

You can cite the current version of this software repository using the Zenodo DOI

Please cite the biom-format project (in addition to this module) as:

The Biological Observation Matrix (BIOM) format or: how I learned to stop worrying and love the ome-ome.
Daniel McDonald, Jose C. Clemente, Justin Kuczynski, Jai Ram Rideout, Jesse Stombaugh, Doug Wendel, Andreas Wilke, Susan Huse, John Hufnagle, Folker Meyer, Rob Knight, and J. Gregory Caporaso.
GigaScience 2012, 1:7. doi:10.1186/2047-217X-1-7

constructor(object)

Parameter: object Type: Object Example: {}

The 'constructor' method is responsible for creating an object call via new Biom().

How to use this method

biom = new Biom();
// or with a (partial) biom json object
biom = new Biom({
    id: "Table ID",
    shape: [2,2],
    rows: [
        {id: "row1", metadata: null},
        {id: "row2", metadata: null}
    ],
    columns: [
        {id: "col1", metadata: null},
        {id: "col2", metadata: null}
    ]
    // ...
});
// type validation is performed so assigning illegal types will result in a TypeError:
// would throw a TypeError:
//new Biom({id: 7});

getter/setter

The getter methods are called implicitly when reading properties with the dot notation.

biom = new Biom();
id = biom.id;
data = biom.data;

The setter methods are called implicitly when assigning to properties with the dot notation (some basic type checks are performed).

biom = new Biom();
biom.id = "New ID";
// would throw a TypeError:
//biom.id = 17;

The matrix_type setter also updates internal representation of data:

biom = new Biom({matrix_type: 'sparse', shape: [2,4], data: [[0,1,12],[1,2,7],[1,3,17]]});
biom.matrix_type = 'dense';
biom.data;
// [[0,12,0,0],
//  [0,0,7,17]]

The rows and columns setter update the internal data by id. Consider the following example:

biom = new Biom({
    matrix_type: 'dense',
    rows: [{id: 'row1'},{id: 'row2'},{id: 'row3'}],
    columns: [{id: 'col1'},{id: 'col2'}],
    data: [[0,1],[2,7],[5,0]]
});

This will result in the following data matrix:

col1 col2
row1 0 1
row2 2 7
row3 5 0

Now setting the rows will also update the data accordingly:

biom.rows = [{id: 'row2'},{id: 'row1'},{id: 'row4'},{id: 'row5'}];
console.log(biom.data);

This results in the following table (row1 and row2 are swapped, row3 is removed and two new rows, row4 and row5 are added):

col1 col2
row2 2 7
row1 0 1
row4 0 0
row5 0 0

This all happens in the background by simply assigning to rows. The same applies to columns. This way data integrity is preserved.

getMetadata(object)

Parameter: object Type: Object Example: {dimension: 'rows', attribute: 'taxonomy'} Throws Error if attribute is not set or dimension is none of "rows", "observation", "columns" or "sample"

This method extracts metadata with a given attribute from rows or columns (dimension). Default value for object.dimension is "rows".

biom = new Biom({
    id: "Table ID",
    shape: [2,5],
    rows: [
        {id: "row1", metadata: null},
        {id: "row2", metadata: null}
    ],
    columns: [
        {id: "col1", metadata: {pH: 7.2}},
        {id: "col2", metadata: {pH: 8.1}},
        {id: "col3", metadata: {pH: null}},
        {id: "col4", metadata: {pH: 6.9}},
        {id: "col5", metadata: {}}
    ]
    // ...
});
meta = biom.getMetadata({dimension: 'columns', attribute: 'pH'});
// [7.2, 8.1, null, 6.9, null]

The attribute is used as path as in the lodash get function (https://lodash.com/docs/4.16.6#get) so multiple levels can be searched (string with dots is interpreted as a path ('a.b.c' is equivalent to ['a','b','c']))

biom = new Biom({
    id: "Table ID",
    shape: [2,2],
    rows: [
        {id: "row1", metadata: null},
        {id: "row2", metadata: null}
    ],
    columns: [
        {id: "col1", metadata: {'a': {'b': {'c': 1}}}},
        {id: "col2", metadata: {'a': {'b': {'c': 2}}}},
        {id: "col3", metadata: {'a': {'b': null}}},
        {id: "col4", metadata: {'a': {'b': {'c': null}}}},
        {id: "col5", metadata: {'a': {'b': {'c': 5}}}}
    ]
    // ...
});
meta = biom.getMetadata({dimension: 'columns', attribute: ['a', 'b', 'c']});
// [1, 2, null, null, 5]

addMetadata(object)

Parameter: object Type: Object Example: {dimension: 'columns', attribute: 'pH', defaultValue: 7} Example: {dimension: 'columns', attribute: 'pH', values: [6,7,5,5,9]} Example: {dimension: 'rows', attribute: 'importance', values: {row3id: 5, row7id: 0}} Throws Error if attribute is not set Throws Error if dimension is none of "rows", "observation", "columns" or "sample" Throws Error if not exactly one of defaultValue or values is set (setting to null is considered unset) Throws Error if values is an array with a length that does not match that of the dimension (rows or columns)

This method adds metadata with a given attribute to rows or columns (dimension). Default value for object.dimension is "rows"

biom = new Biom({
    id: "Table ID",
    shape: [2,5],
    rows: [
        {id: "row1", metadata: null},
        {id: "row2", metadata: null}
    ],
    columns: [
        {id: "col1", metadata: {}},
        {id: "col2", metadata: {}},
        {id: "col3", metadata: {}},
        {id: "col4", metadata: {}},
        {id: "col5", metadata: {}}
    ]
    // ...
});
biom.addMetadata({dimension: 'columns', attribute: 'pH', defaultValue: 7})
biom.getMetadata({dimension: 'columns', attribute: 'pH'});
// [7, 7, 7, 7, 7]
biom.addMetadata({dimension: 'columns', attribute: 'pH', values: [1,2,null,4,5]})
biom.getMetadata({dimension: 'columns', attribute: 'pH'});
// [1, 2, null, 4, 5]
biom.addMetadata({dimension: 'columns', attribute: 'pH', values: {col2: 7, col3: 9, col4: null}})
biom.getMetadata({dimension: 'columns', attribute: 'pH'});
// [1, 3, 9, null, 5]

The attribute is used as path as in the lodash set function (https://lodash.com/docs/4.16.6#set) so multiple levels can be given (string with dots is interpreted as a path ('a.b.c' is equivalent to ['a','b','c']))

getter/setter for data independent of matrix_type

Accessing data directly returns different results depending on matrix_type (sparse or dense). Therefore a couple of helper functions have been implemented that work independent of matrix_type:

  • getDataAt(rowID, colID) returns a single data point
  • setDataAt(rowID, colID, value) sets a single data point
  • getDataRow(rowID) returns data for a single row
  • setDataRow(rowID, values) sets data for a single row
  • getDataColumn(colID) returns data for a single column
  • setDataColumn(colID, values) sets data for a single column
  • getDataMatrix() returns the full data matrix in dense format (independent of internal representation)
  • setDataMatrix(values) sets the full data matrix in dense format (independent of internal representation)
biom = new Biom({
    rows: [{id: 'r1'},{id: 'r2'},{id: 'r3'},{id: 'r4'},{id: 'r5'}],
    columns: [{id: 'c1'},{id: 'c2'},{id: 'c3'},{id: 'c4'},{id: 'c5'}],
    matrix_type: 'sparse',
    data: [[0,1,11],[1,2,13],[4,4,9]]
});
biom.getDataAt('r1','c2');
// 11
biom.getDataRow('r2');
// [0,0,13,0,0]
biom.getDataColumn('c5');
// [0,0,0,0,9]
biom.getDataMatrix();
// [[0,11, 0, 0, 0],
//  [0, 0,13, 0, 0],
//  [0, 0, 0, 0, 0],
//  [0, 0, 0, 0, 0],
//  [0, 0, 0, 0, 9]]
biom.setDataAt('r3','c4',99);
biom.setDataRow('r4',[1,2,3,4,5]);
biom.setDataColumn('c1',[10,9,8,7,6]);
biom.getDataMatrix();
// [[10,11, 0, 0, 0],
//  [ 9, 0,13, 0, 0],
//  [ 8, 0, 0,99, 0],
//  [ 7, 2, 3, 4, 5],
//  [ 6, 0, 0, 0, 9]]

// internal data remains to be sparse
biom.data
// [[0,0,10],[0,1,11],[1,0,9],[1,2,13],[2,0,8],[2,3,99],[3,0,7],[3,1,2],[3,2,3],[3,3,4],[3,4,5],[4,1,6],[4,4,9]]

pa(inPlace)

Parameter: inPlace Type: boolean Returns Array

This function returns the presence/absence matrix as an array of arrays. If inPlace is true the internal data matrix is replaced.

biom = new Biom({
    rows: [{id: 'o1'}, {id: 'o2'}],
    columns: [{id: 's1'}, {id: 's2'}, {id: 's3'}],
    matrix_type: 'dense',
    data: [[0, 0, 1], [1, 3, 42]]
});
biom.getDataMatrix();
// [[0, 0, 1], [1, 3, 42]]
biom.pa(false);
// [[0, 0, 1], [1, 1, 1]]
biom.getDataMatrix();
// [[0, 0, 1], [1, 3, 42]]
biom.pa(true);
// [[0, 0, 1], [1, 1, 1]]
biom.getDataMatrix();
// [[0, 0, 1], [1, 1, 1]]

transform({f: function, dimension: 'rows', inPlace: false})

Parameter: options Type: Object Example: {f: function(data, id, metadata){return data.map(x => x*2)}, dimension: 'columns', inPlace: true} Returns Array

This function returns the transformed matrix as an array of arrays using the provided function. If inPlace is true the internal data matrix is replaced.

biom = new Biom({
    rows: [{id: 'o1'}, {id: 'o2'}],
    columns: [{id: 's1'}, {id: 's2'}, {id: 's3'}],
    matrix_type: 'dense',
    data: [[0, 0, 1], [1, 3, 42]]
});
biom.getDataMatrix();
// [[0, 0, 1], [1, 3, 42]]
biom.transform({f: function(data, id, metadata){return data.map(x => x*2)}, dimension: 'columns', inPlace: true});
// [[0, 0, 2], [2, 6, 84]]

norm({dimension: 'rows', inPlace: false})

Parameter: options Type: Object Example: {dimension: 'rows', inPlace: false} Returns Array

This function returns the normalized matrix as an array of arrays using relativation (either by row or by column). If inPlace is true the internal data matrix is replaced.

biom = new Biom({
    rows: [{id: 'o1'}, {id: 'o2'}],
    columns: [{id: 's1'}, {id: 's2'}, {id: 's3'}],
    matrix_type: 'dense',
    data: [[0, 0, 8], [3, 5, 42]]
});
biom.getDataMatrix();
// [[0, 0, 8], [3, 5, 42]]
biom.norm({dimension: 'columns', inPlace: false});
// [[0.0, 0.0, 0.16], [1.0, 1.0, 0.84]]
biom.norm({dimension: 'rows', inPlace: false});
// [[0.0, 0.0, 1.0], [0.06, 0.1, 0.84]]

filter({f: function, dimension: 'rows', inPlace: false})

Parameter: options Type: Object Example: {f: function(data, id, metadata){return metadata.priority > 1}, dimension: 'columns', inPlace: true} Returns Array

This function returns the filtered matrix as an array of arrays using the provided function. If inPlace is true the internal data matrix is replaced.

biom = new Biom({
    rows: [{id: 'o1'}, {id: 'o2'}],
    columns: [{id: 's1'}, {id: 's2'}, {id: 's3'}],
    matrix_type: 'dense',
    data: [[0, 0, 1], [1, 3, 42]]
});
biom.getDataMatrix();
// [[0, 0, 1], [1, 3, 42]]
biom.filter({f: function(data, id, metadata){return id !== 's2'}, dimension: 'columns', inPlace: false});
// [[0, 1], [1, 42]]

transpose()

This function transposes the matrix in place. In the process rows and columns are switched as well.

biom = new Biom({
    rows: [{id: 'o1'}, {id: 'o2'}],
    columns: [{id: 's1'}, {id: 's2'}, {id: 's3'}],
    matrix_type: 'dense',
    data: [[0, 0, 1], [1, 3, 42]]
});
biom.transpose()
biom.getDataMatrix();
// [[0, 1], [0, 3], [1, 42]]
biom.rows[0].id
// s1

static parse(biomString, options)

Parameter: biomString Type: String Example: '{"id": "test", "shape": [0,0]}' Parameter: options Type: Object Example: {conversionServer: 'https://biomcs.iimog.org/convert.php', arrayBuffer: ab} Returns Promise this function returns a promise. In case of success the new Biom object is passed otherwise the Error object is passed.

The conversion server is a simple php application that provides a webservice interface to the official python biom-format utility. You can host your own server using a pre-configured Docker container. A publicly available instance is reachable under https://biomcs.iimog.org/. For this version of the module biom-conversion-server v0.2.0 or later is required.

The promise is rejected:

  • if biomString is not valid JSON and no conversionServer is given
  • if biomString is JSON that is not compatible with biom specification. Error will be thrown by the Biom constructor
  • if there is a conversion error (conversionServer not reachable, conversionServer returns error)

This method parses the content of a biom file either as string or as ArrayBuffer.

// Example: json String
Biom.parse('{"id": "Table ID", "shape": [2,2]}', {}).then(
    function(biom){
        console.log(biom.shape);
    }
);

// Example: raw arrayBuffer from hdf5 file (file is a reference on the hdf5 file)
// Using the public conversionServer on biomcs.iimog.org
var reader = new FileReader();
reader.onload = function(c) {
    Biom.parse('', {conversionServer: 'https://biomcs.iimog.org/convert.php', arrayBuffer: c.target.result}).then(
        // in case of success
        function(biom){
            console.log(biom);
        },
        // in case of failure
        function(fail){
            console.log(fail);
        }
    );
};
reader.readAsArrayBuffer(file);

write(options)

Parameter: options Type: Object Example: {conversionServer: 'https://biomcs.iimog.org/convert.php', asHdf5: false} Returns Promise this function returns a promise. In case of success the String or ArrayBuffer representation of the biom object is passed otherwise the Error object is passed.

The conversion server is a simple php application that provides a webservice interface to the official python biom-format utility. You can host your own server using a pre-configured Docker container. A publicly available instance is reachable under https://biomcs.iimog.org/. For this version of the module biom-conversion-server v0.2.0 or later is required. If you just want to get the JSON string representation (i.e. biom-format version 1) you can use .toString() which works synchronously.

The promise is rejected:

  • if there is a conversion error (conversionServer not reachable, conversionServer returns error)

This method generates a String (json) or ArrayBuffer (hdf5) representation of the biom object.

biom = new Biom({
    id: "Table ID",
    shape: [2,2]
    // ...
});

// Example: to json String
biom.write().then(
    function(biomString){
        console.log(biomString);
    }
);

// Example: to raw arrayBuffer (hdf5)
// Using the public conversionServer on biomcs.iimog.org
biom.write({conversionServer: 'https://biomcs.iimog.org/convert.php', asHdf5: true}).then(
    // in case of success
    function(biomArrayBuffer){
        console.log(biomArrayBuffer);
        // a Blob can be created
        // blob = new Blob([biomArrayBuffer], {type: "application/octet-stream"});
        // and saved as file e.g. with https://github.com/eligrey/FileSaver.js/
        // saveAs(blob, 'export.hdf5.biom', true);
    },
    // in case of failure
    function(fail){
        console.log(fail);
    }
);

static sparse2dense(sparseData, shape)

Parameter: sparseData Type: Array Example: [[0,1,1],[1,0,2]] Parameter: shape Type: Array Example: [2,2] Returns Array the given sparseData converted to dense, e.g. [[0,1],[2,0]]

var denseData = Biom.sparse2dense([[0,1,1],[1,0,2]], [2,2]);
// denseData = [[0,1],[2,0]]

static dense2sparse(denseData)

Parameter: denseData Type: Array Example: [[0,1],[2,0]] Returns Array the given denseData converted to sparse, e.g. [[0,1,1],[1,0,2]]

var sparseData = Biom.dense2sparse([[0,1],[2,0]]);
// sparseData = [[0,1,1],[1,0,2]]

A note about nested metadata

In general it is possible to assign arbitrary metadata (key/value pairs) to each column and row. BIOM format version 1.0 does not restrict the type of the value so strings, numbers, arrays and objects are all possible. Strings, numbers and arrays (e.g. taxonomy) are commonly used. However BIOM 1.0 files that contain nested metadata (values are themselves objects) can not be converted to BIOM format version 2.1 with the official python command line tool. This is a design decision rather than a bug (see biocore/biom-format#513). As it might be useful to have nested metadata and it is easy to handle in javascript it is automatically converted to and from JSON strings. The same applies for numeric metadata (it is automatically converted from and to string). See the following examples:

Automatic unpacking of metadata JSON strings

Strings as values in metadata are automatically parsed as JSON and unpacked if possible.

var biom = new Biom({
    rows: [
        {id: 'row1', metadata: {'jsonExample': '{"a": {"b": [1,2,3]}}'}},
        {id: 'row2', metadata: {'jsonExample': '{"a": {"b": [2,3,1]}}'}},
        {id: 'row3', metadata: {'jsonExample': '{"a": {"b": [3,1,2]}}'}}
    ]
});
// The string value of jsonExample is automatically unpacked as object
var row1ab = biom.rows[0].metadata.jsonExample.a.b;
// row1ab is the array [1,2,3]

Automatic packing of metadata objects as JSON

Accordingly metadata objects are converted to JSON when writing the object as string (toString or write)

var biom = new Biom({
    columns: [
        {id: 'col1', metadata: {'object': {a: {b: [1,2,3]}}}},
        {id: 'col2', metadata: {'object': {a: {b: [2,3,1]}}}}
    ]
});
// The string value of jsonExample is automatically unpacked as object
var biomString = biom.toString();
// biomString contains ... {id: "col1", metadata: {"object": "{\"a\": {\"b\": [1,2,3]}}"}} ...

Changes

v1.0.9 (2017-07-28)

  • Add transpose function
  • Update dependencies
  • Add yarn as dependency manager

v1.0.8 (2017-04-10)

  • Add proper handling of arrays as metadata (replace with empty object, fixes PHPs json decode/encode problem with empty objects)

v1.0.7 (2017-03-21)

  • Add 'Table' to cv for type. Improves interoperability with python tool.

v1.0.6 (2016-12-22)

  • Add filter function
  • Add norm function
  • Add transform function
  • Add pa function to convert data to absence/presence

v1.0.5 (2016-11-08)

  • Export numeric metadata as string (compatibility with BIOM v2.1)

v1.0.4 (2016-11-08)

  • Handle nested metadata (import/export)

v1.0.3 (2016-11-03)

  • Override toString function to get JSON
  • Add capability of deep attributes in getMetadata
  • Add capability of deep attributes in addMetadata
  • Add minimal required node version
  • Fix installation instructions

v1.0.2 (2016-09-15)

  • Fix installation via npm
  • Fix minfied version of js

v1.0.1 (2016-09-07)

  • Init metadata in rows and columns

v1.0.0 (2016-09-06)

  • Add matrix_type agnostic getter/setter for data
  • Add static methods sparse2dense and dense2sparse
  • Update data on set columns
  • Update data on set rows
  • Check data for correct dimensions
  • Check rows and columns for missing or duplicate ids
  • Make shape property read only
  • Check shape on construction
  • Add getter for nnz (#10)
  • Add data transformation to matrix_type setter (#3)

v0.1.4 (2016-07-29)

  • Add write function
  • Add browserified build

v0.1.3 (2016-07-25)

  • Add parse function
  • Add hdf5 conversion capability to parse (via external server)

v0.1.2 (2016-07-21)

  • Add getMetadata function
  • Add addMetadata function

v0.1.1 (2016-07-20)

  • Bower init

v0.1.0 (2016-07-18)

  • Initial release
  • Constructor
  • Getter/Setter for specified fields
  • Basic type checking in setters

Contributing

All contributions are welcome.

Support

If you have any problem or suggestion please open an issue here.

License

The MIT License

Copyright (c) 2016, Markus J. Ankenbrand

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.