DensityServer is a service for accessing subsets of volumetric density data. It automatically downsamples the data depending on the volume of the requested region to reduce the bandwidth requirements and provide near-instant access to even the largest data sets.
It uses the text based CIF and binary BinaryCIF formats to deliver the data to the client. The server support is integrated into the LiteMol Viewer.
For quick info about the benefits of using the server, check out the examples. There is an instance of the server at WebChem and PDBe.
-
Install Node.js (tested on Node 6.* and 7.*; x64 version is strongly preferred).
-
Get the code:
git clone https://github.com/dsehnal/DensityServer.git
or download it as ZIP. No building is required, only the
build
folder and thepackage.json
file in the archive are needed. -
Prepare the data.
-
Run the server.
For the server to work, CCP4/MAP (models 0, 1, 2 are supported) input data need to be converted into a custom block format.
To achieve this, use the build/pack
application.
-
To prepare data from x-ray based methods, use:
node build/pack -xray main.ccp4 diff.ccp4 out.mdb
-
For EM data, use:
node build/pack -em em.map out.mdb
-
Install production dependencies:
npm install --only=production
-
Update
build/server-config.js
to link to your data and optionally tweak the other parameters. -
Run it:
node build/server
In production it is a good idea to use a service that will keep the server running, such as forever.js.
The program local
in the build folder can be used to query the data without running a http server.
-
node build/local
prints the program usage. -
node build/local jobs.json
takes a list of jobs to execute in JSON format. A job entry is defined by this interface:interface JobEntry { source: { filename: string, name: string, id: string }, query: { kind: 'box' | 'cell', space?: 'fractional' | 'cartesian', bottomLeft?: number[], topRight?: number[], } params: { /** Determines the detail level as specified in server-config */ detail?: number, /** * Determines the sampling level: * 1: Original data * 2: Downsampled by factor 1/2 * ... * N: downsampled 1/2^(N-1) */ forcedSamplingLevel?: number, asBinary: boolean, }, outputFolder: string }
Example
jobs.json
file content:[{ source: { filename: `g:/test/mdb/emd-8116.mdb`, name: 'em', id: '8116', }, query: { kind: 'cell' }, params: { detail: 4, asBinary: true }, outputFolder: 'g:/test/local-test' }]
-
Get the code:
git clone https://github.com/dsehnal/DensityServer.git
-
Install dependencies:
cd DensityServer npm install gulp -g npm install
-
Build:
gulp
The source code is split into 2 mains parts: pack
and server
:
- The
pack
part provides the means of converting CCP4 files into the internal block format. - The
server
includesquery
: the main part of the server that handles a query.execute.ts
is the "entry point".algebra
: linear, "coordinate", and "box" algebra provides the means for calculations necessary to concent a user query into a menaningful response.- API wrapper that handles the requests.
Basic information about how the server works is present in the docs
folder.
The data can be consumed in any (modern) browser using the CIFTools.js library (or any other piece of code that can read text or binary CIF).
The Data Format document gives a detailed description of the server response format.
As a reference/example of the server usage, please see the implementation in LiteMol (CIF.ts + Data.ts, UI).
This project is licensed under the Apache 2.0 license. See the LICENSE file for more info.