steampipes

6.7.1 • Public • Published

SteamPipes

Table of Contents generated with DocToc

Fast, simple data pipelines built from first principles. Basically, datomic transducers.

SteamPipes is the successor to PipeStreams and PipeDreams. PipeStreams was originally built on top of NodeJS streams and through; from version X███████████████ on, I switched to pull-streams.

Motivation

  • Performance, X███████████████ insert benchmarks
  • Simplicity of implementation, no recursion
  • Observability, the data pipeline is an array of arrays that one may inspect

How to Construct Sources, Transforms, and Sinks

Sources

Valid SteamPipes sources include all JS values for which either

CS                            │ JS
──────────────────────────────┼─────────────────────────────────────
for d from source             │ for ( d of source ) {
  ...                         │   ... }
──────────────────────────────┴─────────────────────────────────────

or

CS                            │ JS
──────────────────────────────┼─────────────────────────────────────
for await d from source       │ for await ( d of source ) {
  ...                         │   ... }
──────────────────────────────┴─────────────────────────────────────

is valid.

In addition, synchronous and asynchronous functions that, when called without arguments, return a value for which one of the iteration modes (sync or async) works correctly are allowed. Such a function will be called as late as possible, that is, not at pipeline definition time, but only when a pipeline with a source and a drain has been constructed and is started with pull().

Transforms

  • Functions that take 2 arguments d and send (includes send.end());

  • must/should/may have a list (Array) that acts as so-called 'local sink' (this is where data send with send d is stored before being passed to the next transform);

  • property to indicate whether transform is asynchronous.

  • transforms have a property sink, which must be a list (at least have a shift() method);

  • TF may add (ordinarily push()) values to the sink at any time (but processing only guaranteed when this happens, in TFs marked synchronous, before the main body of the function completed, and in TFs marked asynchronous, before done() has been called).

  • conceivable to use same TF, same sink in two or more pipelines simultaneously; conceivable to accept values from other sources than the TF which is directly upstream; hence possible to construct wyes (i.e. data sources that appear in mid-stream).

  • Calling $ whatever..., ( d, send ) -> ... is always equivalent to calling modify whatever..., $ ( d, send ) -> ...; calling modify t without any further arguments is equivalent to t (the transform itself).

  • @chunkify_*()—cut stream by observing boundaries. Depending on whether to keep or toss datoms recognbized by the filter function as boundaries, use either

    • @$chunkify_keep = ( filter, postprocess = null ) -> or
    • @$chunkify_toss = ( filter, postprocess = null ) -> The second, optional postprocess argument must be a function when given; it will receive a list of datoms and may return any value which will then be sent on. Sample application:
    filter      = ( d ) -> d in [ '(', ')', ]
    postprocess = ( chunk ) -> chunk.join '|'
    pipeline    = []
    pipeline.push 'ab(cdefg)'
    pipeline.push SP.$chunkify_keep filter, postprocess
    pipeline.push SP.$show()
    pipeline.push SP.$drain -> resolve()
    SP.pull pipeline...

    will print

    'a|b|('
    'c|d|e|f|g|)'
    

    Had we used SP.$chunkify_toss filter, postprocess instead, the output would have been

    'a|b'
    'c|d|e|f|g'
    

    So if one just wanted to collect all stream items into a single list, one would use either SP.$collect() or else an argument to the drain transform, as in SP.$drain ( collector ) -> resolve collector; if one wanted to collect all stream items into multiple lists, then SP.$chunkify_{keep|toss} filter, ... is the way to go.

Modifiers and $before_first(), $after_last()

  • { first, last, before, after, between, }
  • $before_first()
  • $after_last()
  • $async_before_first()
  • $async_after_last()

Sinks

Arbitrary objects can act as sinks provided they have a sink property; this property must be either set to true for a generic sink or else be an object that has push() method (such as a list). A sink may, furthermore, also have an on_end() method which, if set, must be a function that takes zero or one argument.

If the sink property is a list, then it will receive all data items that arrive through the pipeline (the resultant data of the pipeline); if it is true, then those data items will be discarded.

The on_end() method will be called when streaming has terminated (since the source was exhausted or a transform called send.end()); if it takes one argument, then that will be the list of resultant data. If both the sink property has been set to a list and on_end() takes an argument, then that value will be the sink property (you probably only want the one or the other in most cases).

{ sink: true, }
{ sink: true, on_end: ( -> do_something() ), }
{ sink: true, on_end: ( ( result ) -> do_something result ), }
{ sink: x,    on_end: ( ( result ) -> do_something result ### NB result is x ### ), }

The only SteamPipes method that produces a sink is $drain() (it should really be called sink() but for compatibility with PipeStreams the name has been kept as a holdover from pull-stream). $drain() takes zero, one or two arguments:

$drain()                              is equiv. to   { sink: true, }
$drain                     -> ...     is equiv. to   { sink: true, on_end: (       -> ... ), }
$drain               ( x ) -> ...     is equiv. to   { sink: true, on_end: ( ( x ) -> ... ), }
$drain { sink: x, },       -> ...     is equiv. to   { sink: x,    on_end: (       -> ... ), }
$drain { sink: x, }, ( x ) -> ...     is equiv. to   { sink: x,    on_end: ( ( x ) -> ... ), }

Asynchronous Sources and Transforms

Asynchronous transforms can be constructed using the 'asynchronous remit' method, $async(). The method passed into $async() must accept three arguments, namely d (the data item coming down the pipeline), send (the method to send data down the pipeline), and, in addition to synchronous transforms, done, which is a callback function used to signal completion (it is analogous to the resulve argument of promises, new Promise ( resulve, reject ) -> and indeed implemented as such). An example:

X███████████████
X███████████████
X███████████████
X███████████████

Ducts

Duct Configurations

I. Special Arities

There are two special duct arities, empty and single. An empty pipeline producers a duct marked with is_empty: true; it is always a no-op, hence discardable. The duct does not have a type property.

A pipeline with a single element produces a duct with the property is_single: true; it is always equivalent to its sole transform, and its type property is that of its sole element.

SHAPE OF PIPELINE                     SHAPE OF DUCT                   REMARKS
⋆ []                                  ⇨ { is_empty:  true,       } # equiv. to a no-op
⋆ [ x, ]                              ⇨ { is_single: true,       } # equiv. to its single member

II. Open Ducts

Open ducts may always take the place of a non-composite element of the same type; this is what makes pipelines composable. As one can always replace a sequence like ( x += a ); ( x += b ); by a non-composed equivalent ( x += a + b ), so can one replace a non-composite through (i.e. a single function that transforms values) with a composite one (i.e. a list of throughs), and so on:

SHAPE OF PIPELINE                     SHAPE OF DUCT                   REMARKS
⋆ [ source, transforms...,        ]   ⇨ { type:      'source',   } # equiv. to a non-composite source
⋆ [         transforms...,        ]   ⇨ { type:      'through',  } # equiv. to a non-composite transform
⋆ [         transforms..., sink,  ]   ⇨ { type:      'sink',     } # equiv. to a non-composite sink

III. Closed Ducts

Closed ducts are pipelines that have both a source and a sink (plus any number of throughs). They are like a closed electric circuit and will start running when being passed to the pull() method (but note that actual data flow may be indefinitely postponed in case the source does not start delivering immediately).

SHAPE OF PIPELINE                     SHAPE OF DUCT                   REMARKS
⋆ [ source, transforms..., sink,  ]   ⇨ { type:      'circuit',  } # ready to run

Behavior for Ending Streams

Two ways to end a stream from inside a transform: either

  1. call send.end(), or
  2. send SP.symbols.end.

The two methods are 100% identical. In SteamPipes, 'ending a stream' means 'to break from the loop that iterates over the data source'.

Note that when the pull method receives an end signal, it will not request any further data from the source, but it will allow all data that is already in the pipeline to reach the sink just as in regular operation, and it will also supply all transforms that have requested a last value with such a terminal value.

Any of these actions may cause any of the transforms to issue an unlimited number of further values, so that, in the general case, ending a stream is not guaranteed to actually stop processing at any point in time; this is only true for properly coöperating transforms.

Aborting Streams

There's no API to abort a stream—i.e. make the stream and all transforms stop processing immediately—but one can always wrap the pull pipeline... invocation into a try/catch clause and throw a custom symbolic value:

pipeline = []
...
pipeline.push $ ( d, send ) ->
  ...
  throw 'abort'
  ...
...
try
  pull pipeline...
catch error
  throw error if error isnt 'abort'
  warn "the stream was aborted"
...

Updates

  • If source has a method start(), it will be called when SP.pull pipeline... is called; this enables push sources to delay issuing data until the pipeline is ready to consume it

To Do

  • [ ] cf ### TAINT how can undefinedend up intransforms??? ### in pull-remit.coffee: Fix bug
  • [ ] somehow notify sources (especiall push sources) that pipeline has been pulled (so data may start to flow); otherwise, if ultimate source is e.g. NodeJS connected via event handlers, those underlying sources will start on definition, not on pipeline completion, and will spill arbitrary amounts of data into SteamPipe buffers.
  • [ ] consider to adapt Rich Hickey's terminology and call transforms 'transducers' (it's the more pipestreamy word)
  • [ ] compare:
    source      = SP.new_push_source()
    source.send 1
    source.send 2
    pipeline    = []
    pipeline.push source
    pipeline.push SP.$show()
    pipeline.push $drain ->
      urge '^2262^', "demo_stream ended"
      resolve()
    source.end() # (1)
    SP.pull pipeline...
    # source.end() # (2)
    With (1), the drain condition never triggers; only (2) works as intended; i.o.w. source.end() must not be called before SP.pull(). This is not acceptable.
  • [ ] consider whether $drain() should allow to appear mid-stream (it would then pull data from upstream, downstream must rely on own $drain() to obtain data).
  • [ ] reflect once more about depth-first vs. breadth-first doling mode: (all sources and, so) async sources (, too,) wait before doling out the next item until it has been transduced (dealt with) completely; shouldn't asynchronous transforms behave likewise? Async transforms do have a done() method to signal finishing, synchronous transforms don't have that, so it is not clear how to deal with a situation where a transform happens to decide it doesn't want to send() anything (although, the transform does return (stop running), so that might be a way)
  • [ ] explain why using only yield instead of send() is not a good idea
  • [ ] make $split() work with both streams and buffers
  • [ ] implement send.skip n (or send.drop n) to drop next n datoms
  • [ ] fix reading from, writing to files
  • [ ] implement $split_tsv()
  • [ ] implement
    • $once_before_first()
    • $once_after_last()
    • $once_async_before_first()
    • $once_async_after_last()
    • $once_with_first()
    • $once_async_with_first()
    • $once_with_last()
    • $once_async_with_last()
    • $once_with_nth()
    • $once_async_with_nth() using modifiers instead ($ { once: [ 'first', 'last', ], }, transform (d, send ) ->) to avoid API bloat
  • [x] implement tees which are like branching tracks that lead to their own sinks
  • [ ] there should also be parallel tracks that are rejoined later on
  • [x] should tees accept single transforms (and implicitly build a pipeline with a sink)? [NO]
  • [ ] obscure bug: when a transform with { first, last, } modifiers is used and uses the $/remit method of another instance of the SteamPipes library, then that transform will get to see the first value, but not the last; presumably, this is caused by the buckets not being shared between the pipeline at large and the transform?
  • [X] obscure bug: when a push source is used with a stream that comes from another instance of the SteamPipes library (as in, ( require 'pathA/steampipes' ).new_push_source() is used in a pipeline that is activated by) ( require 'pathB/steampipes' ).pull pipeline...) and error with message ^steampipes/pullremit@7003^ expected an iterable, a function, a generator function or a sink, got a object results. The message should at least hint point at the probable error cause or be avoided at all. FIXED in v6.2: replaced Symbol 'xy' with Symbol.from 'steampipes/xy' in SP.marks.
  • [ ] bug: async functions passed into $drain(), attached to push_source.start and possibly other places are not called or not called with await, thus causing silent failures. Must always reject loudly where detected or be handled appropriately.
  • [X] implement $chunkify() (as configurable variant of $collect()?); see code comment in standard transforms
  • [ ] implement file tailing using e.g. https://github.com/lucagrulla/node-tail
  • [ ] implement reading from Unix FIFOs, see https://stackoverflow.com/a/18226566/7568091
  • [ ] replace current implementation of $split() with one based on intertext-splitlines
  • [ ] implement $batch size

Future: JS Pipeline Operator

see Breaking Chains with Pipelines in Modern JavaScript

const result3 = numbers
  |> filter(#, v => v % 2 === 0)
  |> map(#, v => v + 1)
  |> slice(#, 0, 3)
  |> Array.from;
  • Lazy evaluation, no backpressure (?), built into the language.
  • Already usable with Babel.
  • Article discusses a number of alternatives with merits and demerits, must read.

To Do: Railway-Oriented Programming

Transform categorization: functions may

  • acc. to result arity

    • give back exactly one value for each input that we do care about (-> $map())
    • give back exactly one value for each input that we do not care about (-> $watch())
    • give back any number of values (-> $/remit())
    • never give back any value (-> $watch())
  • acc. to iterability

    • yield
    • return
  • acc. to synchronicity

    • be synchronous
    • be asynchronous
  • acc. to happiness

    • give back sad value on failure
    • always give back happy failure, using throw for sad results
    • return a sentinel value / error code (like JS [].indexOf())
  • pipeline definition may take on this form:

    = ( pipeline = [] ).push.bind pipeline
    ¶ tee       other_pipeline, ( d ) -> 110 <= d <= 119    # optional filter, all `d`s stay in this pipeline, some also in otherswitch    other_pipeline, ( d ) -> 110 <= d <= 119    # obligatory filter, each `d` in only one pipeline
    ¶ watch     ( d ) -> ...                                # return value thrown away (does that respect async functions?)guard     -1, $indexOf 'helo'                         # guard with filter value, saddens value when `true <- CND.equals(...)`
    ¶ guard     ( ( d ) -> ... ), indexOf 'helo'            # guard with filter function, saddens value when `true <- filter()`trycatch  map ( d       ) -> throw new Error "whaat" if d % 2 is 0; return d * 3 + 1trycatch  $   ( d, send ) -> throw new Error "whaat" if d % 2 is 0; send d; send d * 3 + 1if_sad $show_warning()
    ¶ if_sad $ignore()
    ¶ drain()
    pull ¶
  • pipe processing never calls any transform with sad value (except for those explicitly configured to accept those)

  • but all sad values are still passed on, cause errors at pipeline end (near drain) when not being filtered out

  • must not swallow exceptions implicitly as that would promote silent failures

  • benefit: simplify logic a great deal

  • benefit: may record errors and try to move on, then complain with summary of everything that went wrong

Package Sidebar

Install

npm i steampipes

Weekly Downloads

8

Version

6.7.1

License

MIT

Unpacked Size

1.21 MB

Total Files

115

Last publish

Collaborators

  • loveencounterflow