NAME
recs-decollate
recs-decollate --help-all
Help from: --help-basic:
Usage: recs-decollate <args> [<files>]
Decollate records of input (or records from <files>) into output records.
Arguments:
--dldeaggregator ... Specify a domain language aggregate. See
"Domain Language Integration" below.
--deaggregator|-d <deaggregators> Colon separated list of aggregate
field specifiers. See "Deaggregates"
section below.
--list-deaggregators Bail and output a list of deaggregators.
--show-deaggregator <deaggregator> Bail and output this deaggregator's
detailed usage.
--filename-key|fk <keyspec> Add a key with the source filename (if no
filename is applicable will put NONE)
Help Options:
--help-all Output all help for this script
--help This help screen
--help-deaggregators List the deaggregators
--help-domainlanguage Help on the recs domain language, a [very
complicated] way of specifying valuations (which
act like keys) or aggregators
Deaggregates:
Deaggregates are specified as <deaggregator>[,<arguments>]. See --list-
deaggregators for a list of available deaggregators.
In general, key name arguments to deaggregators may be key specs, but not
key groups
Domain Lanuage Integration:
The normal mechanism for specifying keys and aggregators allows one to
concisely instantiate the objects that back them in the platform and is
certainly the easiest way to use recs. The record stream domain language
allows the creation of these objects in a programmatic way, with neither the
syntactic issues of the normal way nor its guiding hand.
The domain language is itself just PERL with a collection of library
functions for creating platform objects included. Your favorite aggregators
are all here with constructors matching their normal token. For convenience
of e.g. last, aggregators are also included with a prefixed underscore.
Below you can find documentation on all the "built in" functions. Most
aggregators and deaggregators should be present with arguments comparable to
their normal instantiation arugments, but with keyspec parameters replaced
with valuations parameters.
Deaggregates may be specified using the recs domain language. --
dldeaggregator requires the code evaluate as a deaggregator.
See --help-domainlanguage for a more complete description of its workings and
a list of available functions.
See the examples below for a more gentle introduction.
Examples:
Split the "hosts" field into individual "host" fields
recs-decollate --dldeaggregator '_split(hosts,qr/, */,host)'
Help from: --help-deaggregators:
split: split the provided field
unarray: split the provided array
unhash: split the provided hash
Help from: --help-domainlanguage:
DOMAIN LANGUAGE
The normal mechanism for specifying keys and aggregators allows one to
concisely instantiate the objects that back them in the platform and is
certainly the easiest way to use recs. The record stream domain language
allows the creation of these objects in a programmatic way, with neither the
syntactic issues of the normal way nor its guiding hand.
The domain language is itself just PERL with a collection of library
functions for creating platform objects included. Your favorite aggregators
are all here with constructors matching their normal token. For convenience
of e.g. last, aggregators are also included with a prefixed underscore.
Below you can find documentation on all the "built in" functions. Most
aggregators and deaggregators should be present with arguments comparable to
their normal instantiation arugments, but with keyspec parameters replaced
with valuations parameters.
Special Syntax
Where one sees a <snippet> argument below, a string scalar is expected,
however quoting these can get fairly difficult and they can be confused with
non-<snippet> scalars.
Example:
--dla "silly= uconcat(',', snip('{{x}} * 2'))"
To remedy this, one may use <<CODE>> to inline a snippet which will be
immediately understood by the typing mechanism as being code. Escaping inside
this is as single quotes in PERL.
Example With <<CODE>>
--dla 'silly= uconcat(",", <<{{x}} * 2>>)'
Furthermore one may mark variables to be propagated in by prefixing CODE like
<<var1,var2,var3|CODE>>:
--dla 'silly= $f=2; uconcat(",", <<f|{{x}} * $f>>)'
Function Library
ii_agg(<snippet>, <snippet>[, <snippet>])
ii_aggregator(<snippet>, <snippet>[, <snippet>])
inject_into_agg(<snippet>, <snippet>[, <snippet>])
inject_into_aggregator(<snippet>, <snippet>[, <snippet>])
Take an initial snippet, a combine snippet, and an optional squish snippet
to produce an ad-hoc aggregator based on inject into. The initial snippet
produces the aggregate value for an empty collection, then combine takes
$a representing the aggregate value so far and $r representing the next
record to add and returns the new aggregate value. Finally, the squish
snippet takes $a representing the final aggregate value so far and
produces the final answer for the aggregator.
Example(s):
Track count and sum to produce average:
ii_agg(<<[0, 0]>>, <<[$a->[0] + 1, $a->[1] + {{ct}}]>>, <<$a->[1] / $a->[0]>>)
for_field(qr/.../, <snippet>)
Takes a regex and a snippet of code. Creates an aggregator that creates a
map. Keys in the map correspond to fields chosen by matching the regex
against the fields from input records. Values in the map are produced by
aggregators which the snippet must act as a factory for ($f is the field).
Example(s):
To aggregate the sums of all the fields beginning with "t"
for_field(qr/^t/, <<sum($f)>>)
for_field(qr/.../, qr/.../, <snippet>)
Takes two regexes and a snippet of code. Creates an aggregator that
creates a map. Keys in the map correspond to pairs of fields chosen by
matching the regexes against the fields from input records. Values in the
map are produced by aggregators which the snippet must act as a factory
for ($f1 is the first field, $f2 is the second field).
Example(s):
To find the covariance of all x-named fields with all y-named fields:
for_field(qr/^x/, qr/^y/, <<covar($f1, $f2)>>)
map_reduce_agg(<snippet>, <snippet>[, <snippet>])
map_reduce_aggregator(<snippet>, <snippet>[, <snippet>])
mr_agg(<snippet>, <snippet>[, <snippet>])
mr_aggregator(<snippet>, <snippet>[, <snippet>])
Take a map snippet, a reduce snippet, and an optional squish snippet to
produce an ad-hoc aggregator based on map reduce. The map snippet takes $r
representing a record and returns its mapped value. The reduce snippet
takes $a and $b representing two mapped values and combines them. Finally,
the squish snippet takes a mapped value $a representing all the records
and produces the final answer for the aggregator.
Example(s):
Track count and sum to produce average:
mr_agg(<<[1, {{ct}}]>>, <<[$a->[0] + $b->[0], $a->[1] + $b->[1]]>>, <<$a->[1] / $a->[0]>>)
rec()
record()
A valuation that just returns the entire record.
snip(snip)
Takes a snippet and returns both the snippet and the snippet as a
valuation. Used to distinguished snippets from scalars in cases where it
matters, e.g. min('{{x}}') interprets it is a keyspec when it was meant to
be a snippet (and then a valuation), min(snip('{{x}}')) does what is
intended. This is used internally by <<...>> and in fact <<...>> just
translates to snip('...').
subset_agg(<snippet>, <aggregator>)
subset_aggregator(<snippet>, <aggregator>)
Takes a snippate to act as a record predicate and an aggregator and
produces an aggregator that acts as the provided aggregator as run on the
filtered view.
Example(s):
An aggregator that counts the number of records with a time not above 6 seconds:
subset_agg(<<{{time_ms}} <= 6000>>, ct())
type_agg(obj)
type_scalar(obj)
type_val(obj)
Force the object into a specific type. Can be used to force certain
upconversions (or avoid them).
valuation(sub { ... })
val(sub { ... })
Takes a subref, creates a valuation that represents it. The subref will
get the record as its first and only argument.
Example(s):
To get the square of the "x" field:
val(sub{ $[0]->{x} ** 2 })
xform(<aggregator>, <snippet>)
Takes an aggregator and a snippet and produces an aggregator the
represents invoking the snippet on the aggregator's result.
Example(s):
To take the difference between the first and second time fields of the record collection:
xform(recs(), <<{{1/time}} - {{0/time}}>>)
See Also
- RecordStream(3) - Overview of the scripts and the system
- recs-examples(3) - A set of simple recs examples
- recs-story(3) - A humorous introduction to RecordStream
- SCRIPT --help - every script has a --help option, like the output above