fbp
v1.8.0
Published
Parser for the .fbp flow definition language
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FBP flow definition language parser
The fbp library provides a parser for a domain-specific language for flow-based-programming (FBP), used for defining graphs for FBP programming environments like NoFlo, MicroFlo and MsgFlo.
Usage
You can use the FBP parser in your JavaScript code with the following:
var parser = require('fbp');
// Some FBP syntax code
var fbpData = "'hello, world!' -> IN Display(Output)";
// Parse into a Graph definition JSON object
var graphDefinition = parser.parse(fbpData, {caseSensitive: true});
When caseSensitive
is false
the parser will convert port names to lowercase. This is currently the default behavior, but in future releases the default will change to preserve case. It is therefore recommended that you always specify the caseSensitive
option to make your code future-proof.
Command-line
The fbp package also provides a command-line tool for converting FBP files into JSON:
$ fbp somefile.fbp [--case-sensitive] > somefile.json
And for converting JSON files into FBP:
$ fbp somefile.json [--case-sensitive] > somefile.fbp
Language for Flow-Based Programming
FBP is a Domain-Specific Language (DSL) for easy graph definition. The syntax is the following:
'somedata' -> PORT Process(Component)
sends initial data somedata to port PORT of process Process that runs component ComponentA(Component1) X -> Y B(Component2)
sets up a connection between port X of process A that runs component Component1 and port Y of process B that runs component Component2
You can connect multiple components and ports together on one line, and separate connection definitions with a newline or a comma (,
).
Components only have to be specified the first time you mention a new process. Afterwards, simply use the process name.
Example:
'somefile.txt' -> SOURCE Read(ReadFile) OUT -> IN Split(SplitStr)
Split OUT -> IN Count(Counter) COUNT -> IN Display(Output)
Read ERROR -> IN Display
The syntax also supports blank lines and comments. Comments start with the #
character.
Example with the same graph than above :
# Read the content of "somefile.txt" and split it by line
'somefile.txt' -> SOURCE Read(ReadFile) OUT -> IN Split(SplitStr)
# Count the lines and display the result
Split() OUT -> IN Count(Counter) COUNT -> IN Display(Output)
# The read errors are also displayed
Read() ERROR -> IN Display()
Exporting ports
When FBP-defined graphs are used as subgraphs in other flows, it is often desirable to give more user-friendly names to their available ports. In the FBP language this is done by INPORT
and OUTPORT
statements.
Example:
INPORT=Read.IN:FILENAME
Read(ReadFile) OUT -> IN Display(Output)
This line would export the IN port of the Read node as FILENAME.
Node metadata
It is possible to append metadata to Nodes when declaring them by adding the metadata string to the Component part after a colon (:
).
Example:
'somefile.txt' -> SOURCE Read(ReadFile:main)
Read() OUT -> IN Split(SplitStr:main)
Split() OUT -> IN Count(Counter:main)
Count() COUNT -> IN Display(Output:main)
Read() ERROR -> IN Display()
In this case the route leading from Read to Display through Split and Count would be identified with the string main. You can also provide arbitrary metadata keys with the =
syntax:
Read() OUT -> IN Split(SplitStr:foo=bar,baz=123)
In this case the Split node would contain the metadata keys foo
and baz
with values bar
and 123
.
Annotations
FBP graphs also support annotations for specifying things like graph name, description, icon, or the FBP runtime to be used for executing the graph.
The syntax for annotations is # @name value
, for example:
# @runtime noflo-nodejs
# @name ReadSomefile
'somefile' -> SOURCE Read(ReadFile)