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1183 lines
54 KiB
HTML
1183 lines
54 KiB
HTML
POKI_PUT_TOC_HERE
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<p/>
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<button style="font-weight:bold;color:maroon;border:0" onclick="expand_all();" href="javascript:;">Expand all sections</button>
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<button style="font-weight:bold;color:maroon;border:0" onclick="collapse_all();" href="javascript:;">Collapse all sections</button>
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<!-- ================================================================ -->
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<h1>Overview</h1>
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<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_overview');" href="javascript:;">Toggle section visibility</button>
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<div id="section_toggle_overview" style="display: block">
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<p/>
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The essential usages of <tt>mlr filter</tt> and <tt>mlr put</tt> are for
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record-selection and record-updating expressions, respectively. For example, given the following input data:
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POKI_RUN_COMMAND{{cat data/small}}HERE
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<p/> you might retain only the records whose <tt>a</tt> field has value <tt>eks</tt>:
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POKI_RUN_COMMAND{{mlr filter '$a == "eks"' data/small}}HERE
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<p/> or you might add a new field which is a function of existing fields:
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POKI_RUN_COMMAND{{mlr put '$ab = $a . "_" . $b ' data/small}}HERE
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<p/>The two verbs <tt>mlr filter</tt> and <tt>mlr put</tt> are essentially the
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same. The only differences are:
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<ul>
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<li/> Expressions sent to <tt>mlr filter</tt> must end with a boolean expression,
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which is the filtering criterion;
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<li/> <tt>mlr filter</tt> expressions may not
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reference the <tt>filter</tt> keyword within them; and
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<li/> <tt>mlr filter</tt> expressions may not use <tt>tee</tt>, <tt>emit</tt>,
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<tt>emitp</tt>, or <tt>emitf</tt>.
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</ul>
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<p/> All the rest is the same: in particular, you can define and invoke
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functions and subroutines to help produce the final boolean statement, and
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record fields may be assigned to in the statements preceding the final boolean
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statement.
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<p/>There are more details and more choices, of course, as detailed in the following sections.
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</div>
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<!-- ================================================================ -->
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<h1>Syntax</h1>
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<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_syntax');" href="javascript:;">Toggle section visibility</button>
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<div id="section_toggle_syntax" style="display: block">
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<!-- ================================================================ -->
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<h2>Expression formatting</h2>
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<p/>Multiple expressions may be given, separated by semicolons, and each may refer to the ones before:
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POKI_RUN_COMMAND{{ruby -e '10.times{|i|puts "i=#{i}"}' | mlr --opprint put '$j = $i + 1; $k = $i +$j'}}HERE
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Newlines within the expression are ignored, which can help increase legibility of complex expressions:
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POKI_INCLUDE_AND_RUN_ESCAPED(data/put-multiline-example.txt)HERE
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POKI_RUN_COMMAND{{mlr --opprint filter '($x > 0.5 && $y < 0.5) || ($x < 0.5 && $y > 0.5)' then stats2 -a corr -f x,y data/medium}}HERE
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<!-- ================================================================ -->
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<h2>Expressions from files</h2>
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<p/>The simplest way to enter expressions for <tt>put</tt> and <tt>filter</tt> is between single quotes on the command line, e.g.
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POKI_INCLUDE_AND_RUN_ESCAPED(data/fe-example-1.sh)HERE
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POKI_INCLUDE_AND_RUN_ESCAPED(data/fe-example-2.sh)HERE
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<p/>You may, though, find it convenient to put expressions into files for reuse, and read them
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<b>using the -f option</b>. For example:
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POKI_RUN_COMMAND{{cat data/fe-example-3.mlr}}HERE
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POKI_RUN_COMMAND{{mlr --from data/small put -f data/fe-example-3.mlr}}HERE
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<p/>If you have some of the logic in a file and you want to write the rest on the command line, you
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can <b>use the -f and -e options</b>:
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POKI_RUN_COMMAND{{cat data/fe-example-4.mlr}}HERE
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POKI_RUN_COMMAND{{mlr --from data/small put -f data/fe-example-4.mlr -e '$xy = f($x, $y)'}}HERE
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<p/>A suggested use-case here is defining functions in files, and calling them from command-line expressions.
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<p/>Another suggest use-case is putting default parameter values in files, e.g. using
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<tt>begin{@count=is_present(@count)?@count:10}</tt> in the file, where you can precede that using
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<tt>begin{@count=40}</tt> using <tt>-e</tt>.
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<p/>Moreover, you can have one or more <tt>-f</tt> expressions (maybe one
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function per file, for example) and one or more <tt>-e</tt> expressions on the
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command line. If you mix <tt>-f</tt> and <tt>-e</tt> then the expressions are
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evaluated in the order encountered. (Since the expressions are all simply
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concatenated together in order, don’t forget intervening semicolons: e.g.
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not <tt>mlr put -e '$x=1' -e '$y=2 ...'</tt> but rather <tt>mlr put -e '$x=1;' -e
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'$y=2' ...</tt>.)
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<!-- ================================================================ -->
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<h2>Semicolons, commas, newlines, and curly braces</h2>
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<p/>Miller uses <b>semicolons as statement separators</b>, not statement terminators. This means you can write:
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POKI_INCLUDE_ESCAPED(data/semicolon-example.txt)HERE
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<p/>Semicolons are optional after closing curly braces (which close conditionals and loops as discussed below).
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POKI_RUN_COMMAND{{echo x=1,y=2 | mlr put 'while (NF < 10) { $[NF+1] = ""} $foo = "bar"'}}HERE
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POKI_RUN_COMMAND{{echo x=1,y=2 | mlr put 'while (NF < 10) { $[NF+1] = ""}; $foo = "bar"'}}HERE
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<p/>Semicolons are required between statements even if those statements are on
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separate lines. <b>Newlines</b> are for your convenience but have no syntactic
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meaning: line endings do not terminate statements. For example, adjacent
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assignment statements must be separated by semicolons even if those statements
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are on separate lines:
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POKI_INCLUDE_ESCAPED(data/newline-example.txt)HERE
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<p/><b>Trailing commas</b> are allowed in function/subroutine definitions,
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function/subroutine callsites, and map literals. This is intended for (although
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not restricted to) the multi-line case:
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POKI_INCLUDE_AND_RUN_ESCAPED(data/trailing-commas.sh)HERE
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<p/>Bodies for all compound statements must be enclosed in <b>curly braces</b>, even if the body is a single statement:
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POKI_CARDIFY{{mlr put 'if ($x == 1) $y = 2' # Syntax error}}HERE
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POKI_CARDIFY{{mlr put 'if ($x == 1) { $y = 2 }' # This is OK}}HERE
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<p/>Bodies for compound statements may be empty:
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POKI_CARDIFY{{mlr put 'if ($x == 1) { }' # This no-op is syntactically acceptable}}HERE
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</div>
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<!-- ================================================================ -->
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<h1>Variables</h1>
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<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_variables');" href="javascript:;">Toggle section visibility</button>
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<div id="section_toggle_variables" style="display: block">
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<p/>Miller has the following kinds of variables:
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<p/> <b>Built-in variables</b> such as <tt>NF</tt>, <tt>NF</tt>,
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<tt>FILENAME</tt>, <tt>PI</tt>, and <tt>E</tt>. These are all capital letters
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and are read-only (although some of them change value from one record to
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another).
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<p/> <b>Fields of stream records</b>, accessed using the <tt>$</tt> prefix.
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These refer to fields of the current data-stream record. For example, in
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<tt>echo x=1,y=2 | mlr put '$z = $x + $y'</tt>, <tt>$x</tt> and <tt>$y</tt>
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refer to input fields, and <tt>$z</tt> refers to a new, computed output field.
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In a few contexts, presented below, you can refer to the entire record as
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<tt>$*</tt>.
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<p/> <b>Out-of-stream variables</b> accessed using the <tt>@</tt> prefix. These
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refer to data which persist from one record to the next, including in
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<tt>begin</tt> and <tt>end</tt> blocks (which execute before/after the record
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stream is consumed, respectively). You use them to remember values across
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records, such as sums, differences, counters, and so on. In a few contexts,
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presented below, you can refer to the entire out-of-stream-variables collection
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as <tt>@*</tt>.
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<p/> <b>Local variables</b> are limited in scope and extent to the current
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statements being executed: these include function arguments, bound variables in
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for loops, and explicitly declared local variables.
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<p/> <b>Keywords</b> are not variables, but since their names are reserved, you
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cannot use these names for local variables.
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<!-- ================================================================ -->
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<h2>Built-in variables</h2>
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<p/> These are written all in capital letters, such as <tt>NR</tt>,
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<tt>NF</tt>, <tt>FILENAME</tt>, and only a small, specific set of them is
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defined by Miller.
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<p/>Miller supports the following five built-in variables for <a
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href="reference-verbs.html#filter"><tt>filter</tt></a> and <tt>put</tt>, all <tt>awk</tt>-inspired:
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<tt>NF</tt>, <tt>NR</tt>, <tt>FNR</tt>, <tt>FILENUM</tt>, and
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<tt>FILENAME</tt>, as well as the mathematical constants <tt>PI</tt> and
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<tt>E</tt>. Lastly, the <tt>ENV</tt> hashmap allows read access to environment
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variables, e.g. <tt>ENV["HOME"]</tt> or <tt>ENV["foo_".$hostname]</tt>.
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POKI_RUN_COMMAND{{mlr filter 'FNR == 2' data/small*}}HERE
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POKI_RUN_COMMAND{{mlr put '$fnr = FNR' data/small*}}HERE
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<p/> Their values of <tt>NF</tt>, <tt>NR</tt>, <tt>FNR</tt>, <tt>FILENUM</tt>,
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and <tt>FILENAME</tt> change from one record to the next as Miller scans
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through your input data stream. The mathematical constants, of course, do not
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change; <tt>ENV</tt> is populated from the system environment variables at the
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time Miller starts and is read-only for the remainder of program execution.
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<p/> Their <b>scope is global</b>: you can refer to them in any <tt>filter</tt>
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or <tt>put</tt> statement. Their values are assigned by the input-record
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reader:
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POKI_RUN_COMMAND{{mlr --csv put '$nr = NR' data/a.csv}}HERE
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POKI_RUN_COMMAND{{mlr --csv repeat -n 3 then put '$nr = NR' data/a.csv}}HERE
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<p/> The <b>extent</b> is for the duration of the put/filter: in a
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<tt>begin</tt> statement (which executes before the first input record is
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consumed) you will find <tt>NR=1</tt> and in an <tt>end</tt>statement (which is
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executed after the last input record is consumed) you will find <tt>NR</tt> to
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be the total number of records ingested.
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<p/> These are all <b>read-only</b> for the <tt>mlr put</tt> and <tt>mlr
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filter</tt> DSLs: they may be assigned from, e.g. <tt>$nr=NR</tt>, but they may
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not be assigned to: <tt>NR=100</tt> is a syntax error.
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<!-- ================================================================ -->
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<h2>Field names</h2>
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<p/>Field names must be specified using a <tt>$</tt> in <tt>filter</tt> and <a
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href="reference-verbs.html#put"><tt>put</tt></a> expressions, even though the dollar signs
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don’t appear in the data stream. For integer-indexed data, this looks
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like <tt>awk</tt>’s <tt>$1,$2,$3</tt>, except that Miller allows
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non-numeric names such as <tt>$quantity</tt> or <tt>$hostname</tt>. (Likewise,
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enclose string literals in double quotes in <tt>filter</tt> expressions even
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though they don’t appear in file data. In particular, <tt>mlr filter
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'$x=="abc"'</tt> passes through the record <tt>x=abc</tt>.)
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<p/>If field names have <b>special characters</b> such as <tt>.</tt> then you can use
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braces, e.g. <tt>'${field.name}'</tt>.
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<p/>You may also use a <b>computed field name</b> in square brackets, e.g.
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POKI_RUN_COMMAND{{echo a=3,b=4 | mlr filter '$["x"] < 0.5'}}HERE
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POKI_RUN_COMMAND{{echo s=green,t=blue,a=3,b=4 | mlr put '$[$s."_".$t] = $a * $b'}}HERE
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<p/> The names of record fields depend on the contents of your input data stream, and their
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values change from one record to the next as Miller scans through your input
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data stream.
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<p/> Their <b>extent</b> is limited to the current record; their <b>scope</b>
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is the <tt>filter</tt> or <tt>put</tt> command in which they appear.
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<p/> These are <b>read-write</b>: you can do <tt>$y=2*$x</tt>,
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<tt>$x=$x+1</tt>, etc.
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<p/> Records are Miller’s output: field names present in the input
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stream are passed through to output (written to standard output) unless fields
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are removed with <tt>cut</tt>, or records are excluded with <tt>filter</tt> or
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<tt>put -q</tt>, etc. Simply assign a value to a field and it will be output.
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<!-- ================================================================ -->
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<h2>Out-of-stream variables</h2>
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<p/> These are prefixed with an at-sign, e.g. <tt>@sum</tt>. Furthermore,
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unlike built-in variables and stream-record fields, they are maintained in an
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arbitrarily nested hashmap: you can do <tt>@sum += $quanity</tt>, or
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<tt>@sum[$color] += $quanity</tt>, or <tt>@sum[$color][$shape] +=
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$quanity</tt>. The keys for the multi-level hashmap can be any expression which
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evaluates to string or integer: e.g. <tt>@sum[NR] = $a + $b</tt>,
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<tt>@sum[$a."-".$b] = $x</tt>, etc.
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<p/> Their names and their values are entirely under your control; they change
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only when you assign to them.
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<p/> Just as for field names in stream records, if you want to define out-of-stream variables
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with <b>special characters</b> such as <tt>.</tt> then you can use braces, e.g. <tt>'@{variable.name}["index"]'</tt>.
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<p/>You may use a <b>computed key </b> in square brackets, e.g.
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POKI_RUN_COMMAND{{echo s=green,t=blue,a=3,b=4 | mlr put -q '@[$s."_".$t] = $a * $b; emit all'}}HERE
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<p/> Out-of-stream variables are <b>scoped</b> to the <tt>put</tt> command in
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which they appear. In particular, if you have two or more <tt>put</tt>
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commands separated by <tt>then</tt>, each put will have its own set of
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out-of-stream variables:
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POKI_RUN_COMMAND{{cat data/a.dkvp}}HERE
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POKI_RUN_COMMAND{{mlr put '@sum += $a; end {emit @sum}' then put 'is_present($a) {$a=10*$a; @sum += $a}; end {emit @sum}' data/a.dkvp}}HERE
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<p/> Out-of-stream variables’ <b>extent</b> is from the start to the end of the record stream,
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i.e. every time the <tt>put</tt> or <tt>filter</tt> statement referring to them is executed.
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<p/> Out-of-stream variables are <b>read-write</b>: you can do <tt>$sum=@sum</tt>, <tt>@sum=$sum</tt>,
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etc.
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<!-- ================================================================ -->
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<h2>Indexed out-of-stream variables</h2>
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<p/>Using an index on the <tt>@count</tt> and <tt>@sum</tt> variables, we get the benefit of the
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<tt>-g</tt> (group-by) option which <tt>mlr stats1</tt> and various other Miller commands have:
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POKI_INCLUDE_AND_RUN_ESCAPED(data/begin-end-example-6.sh)HERE
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POKI_INCLUDE_AND_RUN_ESCAPED(data/begin-end-example-7.sh)HERE
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<p/>Indices can be arbitrarily deep — here there are two or more of them:
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POKI_INCLUDE_AND_RUN_ESCAPED(data/begin-end-example-6a.sh)HERE
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The idea is that <tt>stats1</tt>, and other Miller commands, encapsulate
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frequently-used patterns with a minimum of keystroking (and run a little
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faster), whereas using out-of-stream variables you have more flexibility and
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control in what you do.
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<p/>Begin/end blocks can be mixed with pattern/action blocks. For example:
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POKI_INCLUDE_AND_RUN_ESCAPED(data/begin-end-example-8.sh)HERE
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<!-- ================================================================ -->
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<h2>Local variables</h2>
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<p/>There are three kinds of local variables: <b>arguments</b> to
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functions/subroutines, <b>variables bound within for-loops</b>, and
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<b>locals</b> defined within control blocks. They may be untyped using
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<tt>var</tt>, or typed using <tt>num</tt>, <tt>int</tt>, <tt>float</tt>,
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<tt>str</tt>, <tt>bool</tt>, and <tt>map</tt>.
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<p/>For example:
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POKI_INCLUDE_AND_RUN_ESCAPED(data/local-example-1.sh)HERE
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<p/>Things which are completely unsurprising, resembling many other languages:
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<ul>
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<li/> Parameter names are bound to their arguments but can be reassigned, e.g.
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if there is a parameter named <tt>a</tt> then you can reassign the value of
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<tt>a</tt> to be something else within the function if you like.
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<li/> However, you cannot redeclare the <i>type</i> of an argument or a local:
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<tt>var a=1; var a=2</tt> is an error but
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<tt>var a=1; a=2</tt> is OK.
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<li/> All argument-passing is positional rather than by name; arguments are
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passed by value, not by reference. (This is also true for map-valued variables:
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they are not, and cannot be, passed by reference)
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<li/> You can define locals (using <tt>var</tt>, <tt>num</tt>, etc.) at any
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scope (if-statements, else-statements, while-loops, for-loops, or the top-level
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scope), and nested scopes will have access (more details on scope in the next
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section). If you define a local variable with the same name inside an inner
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scope, then a new variable is created with the narrower scope.
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<li/> If you assign to a local variable for the first time in a scope without
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declaring it as <tt>var</tt>, <tt>num</tt>, etc. then: if it exists in an outer
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scope, that outer-scope variable will be updated; if not, it will be defined in
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the current scope as if <tt>var</tt> had been used. (See also <a
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href="#Type-checking">here</a> for an example.) I recommend always declaring
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variables explicitly to make the intended scoping clear.
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<li/> Functions and subroutines never have access to locals from their callee
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(unless passed by value as arguments).
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</ul>
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<p/>Things which are perhaps surprising compared to other languages:
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<ul>
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<li/> Type declarations using <tt>var</tt>, or typed using <tt>num</tt>,
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<tt>int</tt>, <tt>float</tt>, <tt>str</tt>, and <tt>bool</tt> are necessary to
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declare local variables. Function arguments and variables bound in for-loops
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over stream records and out-of-stream variables are <i>implicitly</i> declared
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using <tt>var</tt>. (Some examples are shown below.)
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<li/> Type-checking is done at assignment time. For example, <tt>float f =
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0</tt> is an error (since <tt>0</tt> is an integer), as is <tt>float f = 0.0; f
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= 1</tt>. For this reason I prefer to use <tt>num</tt> over <tt>float</tt> in
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most contexts since <tt>num</tt> encompasses integer and floating-point values.
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More information about type-checking is <a href="#Type-checking">here</a>.
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<li/> Bound variables in for-loops over stream records and out-of-stream
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variables are implicitly local to that block. E.g. in
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<tt>for (k, v in $*) { ... }</tt>
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<tt>for ((k1, k2), v in @*) { ... }</tt>
|
|
if there are <tt>k</tt>, <tt>v</tt>, etc. in the enclosing scope then those
|
|
will be masked by the loop-local bound variables in the loop, and moreover
|
|
the values of the loop-local bound variables are not available after the
|
|
end of the loop.
|
|
|
|
<li/> For C-style triple-for loops, if a for-loop variable is defined using
|
|
<tt>var</tt>, <tt>int</tt>, etc. then it is scoped to that for-loop. E.g.
|
|
<tt>for (i = 0; i < 10; i += 1) { ... }</tt> and <tt>for (int i = 0; i < 10; i
|
|
+= 1) { ... }</tt>. (This is unsurprising.). If there is no typedecl and an
|
|
outer-scope variable of that name exists, then it is used. (This is also
|
|
unsurprising.) But of there is no outer-scope variable of that name then the
|
|
variable is scoped to the for-loop only.
|
|
|
|
</ul>
|
|
|
|
<p/> The following example demonstrates the scope rules:
|
|
|
|
POKI_RUN_COMMAND{{cat data/scope-example.mlr}}HERE
|
|
POKI_RUN_COMMAND{{cat data/scope-example.dat}}HERE
|
|
POKI_RUN_COMMAND{{mlr --oxtab --from data/scope-example.dat put -f data/scope-example.mlr}}HERE
|
|
|
|
<p/> And this example demonstrates the type-declaration rules:
|
|
|
|
POKI_RUN_COMMAND{{cat data/type-decl-example.mlr}}HERE
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>Type-checking</h2>
|
|
|
|
<p/> Miller’s <tt>put</tt>/<tt>filter</tt> DSLs support two optional
|
|
kinds of type-checking. One is inline <b>type-tests</b> and
|
|
<b>type-assertions</b> within expressions. The other is <b>type
|
|
declarations</b> for assignments to local variables, binding of arguments to
|
|
user-defined functions, and return values from user-defined functions, These
|
|
are discussed in the following subsections.
|
|
|
|
<p/> Use of type-checking is entirely up to you: omit it if you want
|
|
flexibility with heterogeneous data; use it if you want to help catch
|
|
misspellings in your DSL code or unexpected irregularities in your input data.
|
|
|
|
<!-- ================================================================ -->
|
|
<h3>Type-test and type-assertion expressions</h3>
|
|
|
|
<p/> The following <tt>is...</tt> functions take a value and return a boolean
|
|
indicating whether the argument is of the indicated type. The
|
|
<tt>assert_...</tt> functions return their argument if it is of the specified
|
|
type, and cause a fatal error otherwise:
|
|
|
|
<table>
|
|
<tr>
|
|
<td>
|
|
POKI_RUN_COMMAND{{mlr -F | grep ^is}}HERE
|
|
</td>
|
|
<td>
|
|
POKI_RUN_COMMAND{{mlr -F | grep ^assert}}HERE
|
|
</td>
|
|
</tr>
|
|
</table>
|
|
|
|
<p/> Please see the POKI_PUT_LINK_FOR_PAGE(cookbook.html#Data-cleaning_examples)HERE for examples
|
|
of how to use these.
|
|
|
|
<!-- ================================================================ -->
|
|
<h3>Type-declarations for local variables, function parameter, and function return values</h3>
|
|
|
|
<p/> Local variables can be defined either untyped as in <tt>x = 1</tt>, or
|
|
typed as in <tt>int x = 1</tt>. Types include <b>var</b> (explicitly untyped),
|
|
<b>int</b>, <b>float</b>, <b>num</b> (int or float), <b>str</b>, <b>bool</b>,
|
|
and <b>map</b>. These optional type declarations are enforced at the time
|
|
values are assigned to variables: whether at the initial value assignment as in
|
|
<tt>int x = 1</tt> or in any subsequent assignments to the same variable
|
|
farther down in the scope.
|
|
|
|
<p/> The reason for <tt>num</tt> is that <tt>int</tt> and <tt>float</tt> typedecls are very precise:
|
|
|
|
<div class="pokipanel">
|
|
<pre>
|
|
float a = 0; # Runtime error since 0 is int not float
|
|
int b = 1.0; # Runtime error since 1.0 is float not int
|
|
num c = 0; # OK
|
|
num d = 1.0; # OK
|
|
</pre>
|
|
</div>
|
|
|
|
<p/> A suggestion is to use <tt>num</tt> for general use when you want numeric
|
|
content, and use <tt>int</tt> when you genuinely want integer-only values, e.g.
|
|
in loop indices or map keys (since Miller map keys can only be strings or
|
|
ints).
|
|
|
|
<p/> The <tt>var</tt> type declaration indicates no type restrictions, e.g.
|
|
<tt>var x = 1</tt> has the same type restrictions on <tt>x</tt> as <tt>x =
|
|
1</tt>. The difference is in intentional shadowing: if you have <tt>x = 1</tt>
|
|
in outer scope and <tt>x = 2</tt> in inner scope (e.g. within a for-loop or an
|
|
if-statement) then outer-scope <tt>x</tt> has value 2 after the second
|
|
assignment. But if you have <tt>var x = 2</tt> in the inner scope, then you
|
|
are declaring a variable scoped to the inner block.) For example:
|
|
|
|
<div class="pokipanel">
|
|
<pre>
|
|
x = 1;
|
|
if (NR == 4) {
|
|
x = 2; # Refers to outer-scope x: value changes from 1 to 2.
|
|
}
|
|
print x; # Value of x is now two
|
|
</pre>
|
|
</div>
|
|
<div class="pokipanel">
|
|
<pre>
|
|
x = 1;
|
|
if (NR == 4) {
|
|
var x = 2; # Defines a new inner-scope x with value 2
|
|
}
|
|
print x; # Value of this x is still 1
|
|
</pre>
|
|
</div>
|
|
|
|
<p/> Likewise function arguments can optionally be typed, with type enforced
|
|
when the function is called:
|
|
|
|
<div class="pokipanel">
|
|
<pre>
|
|
func f(map m, int i) {
|
|
...
|
|
}
|
|
$a = f({1:2, 3:4}, 5); # OK
|
|
$b = f({1:2, 3:4}, "abc"); # Runtime error
|
|
$c = f({1:2, 3:4}, $x); # Runtime error for records with non-integer field named x
|
|
if (NR == 4) {
|
|
var x = 2; # Defines a new inner-scope x with value 2
|
|
}
|
|
print x; # Value of this x is still 1
|
|
</pre>
|
|
</div>
|
|
|
|
<p/> Thirdly, function return values can be type-checked at the point of
|
|
<tt>return</tt> using <tt>:</tt> and a typedecl after the parameter list:
|
|
|
|
<div class="pokipanel">
|
|
<pre>
|
|
func f(map m, int i): bool {
|
|
...
|
|
...
|
|
if (...) {
|
|
return "false"; # Runtime error if this branch is taken
|
|
}
|
|
...
|
|
...
|
|
if (...) {
|
|
return retval; # Runtime error if this function doesn't have an in-scope
|
|
# boolean-valued variable named retval
|
|
}
|
|
...
|
|
...
|
|
# In Miller if your functions don't explicitly return a value, they return absent-null.
|
|
# So it would also be a runtime error on reaching the end of this function without
|
|
# an explicit return statement.
|
|
}
|
|
</pre>
|
|
</div>
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>Aggregate variable assignments</h2>
|
|
|
|
<p/>There are three remaining kinds of variable assignment using out-of-stream
|
|
variables, the last two of which use the <tt>$*</tt> syntax:
|
|
<ul>
|
|
<li/> Recursive copy of out-of-stream variables
|
|
<li/> Out-of-stream variable assigned to full stream record
|
|
<li/> Full stream record assigned to an out-of-stream variable
|
|
</ul>
|
|
|
|
<p/> Example recursive copy of out-of-stream variables:
|
|
|
|
POKI_RUN_COMMAND{{mlr --opprint put -q '@v["sum"] += $x; @v["count"] += 1; end{dump; @w = @v; dump}' data/small}}HERE
|
|
|
|
<p/>Example of out-of-stream variable assigned to full stream record, where the 2nd record is stashed, and the 4th record is overwritten with that:
|
|
|
|
POKI_RUN_COMMAND{{mlr put 'NR == 2 {@keep = $*}; NR == 4 {$* = @keep}' data/small}}HERE
|
|
|
|
<p/>Example of full stream record assigned to an out-of-stream variable, finding
|
|
the record for which the <tt>x</tt> field has the largest value in the input
|
|
stream:
|
|
|
|
POKI_RUN_COMMAND{{cat data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr --opprint put -q 'is_null(@xmax) || $x > @xmax {@xmax=$x; @recmax=$*}; end {emit @recmax}' data/small}}HERE
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>Keywords for filter and put</h2>
|
|
|
|
POKI_RUN_COMMAND{{mlr --help-all-keywords}}HERE
|
|
|
|
</div>
|
|
<!-- ================================================================ -->
|
|
<h1>Operator precedence</h1>
|
|
<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_operator_precedence');" href="javascript:;">Toggle section visibility</button>
|
|
<div id="section_toggle_operator_precedence" style="display: block">
|
|
|
|
<p/>Operators are listed in order of decreasing precedence, highest first.
|
|
|
|
<p/>
|
|
<div class="pokipanel">
|
|
<pre>
|
|
Operators Associativity
|
|
--------- -------------
|
|
() left to right
|
|
** right to left
|
|
! ~ unary+ unary- & right to left
|
|
binary* / // % left to right
|
|
binary+ binary- . left to right
|
|
<< >> left to right
|
|
& left to right
|
|
^ left to right
|
|
| left to right
|
|
< <= > >= left to right
|
|
== != =~ !=~ left to right
|
|
&& left to right
|
|
^^ left to right
|
|
|| left to right
|
|
? : right to left
|
|
= N/A for Miller (there is no $a=$b=$c)
|
|
</pre>
|
|
</div>
|
|
<p/>
|
|
|
|
</div>
|
|
<!-- ================================================================ -->
|
|
<h1>Operator and function semantics</h1>
|
|
<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_operator_and_function_semantics');" href="javascript:;">Toggle section visibility</button>
|
|
<div id="section_toggle_operator_and_function_semantics" style="display: block">
|
|
|
|
<ul>
|
|
|
|
<li/> Functions are in general pass-throughs straight to the system-standard C
|
|
library.
|
|
|
|
<li/> The <tt>min</tt> and <tt>max</tt> functions are different from other
|
|
multi-argument functions which return null if any of their inputs are null: for
|
|
<tt>min</tt> and <tt>max</tt>, by contrast, if one argument is null, the other
|
|
is returned.
|
|
|
|
<li/> Symmetrically with respect to the bitwise OR, XOR, and AND operators
|
|
<tt>|</tt>, <tt>^</tt>, <tt>&</tt>, Miller has logical operators
|
|
<tt>||</tt>, <tt>^^</tt>, <tt>&&</tt>: the logical XOR not existing in
|
|
C.
|
|
|
|
<li/> The exponentiation operator <tt>**</tt> is familiar from many languages.
|
|
|
|
<li/> The regex-match and regex-not-match operators <tt>=~</tt> and
|
|
<tt>!=~</tt> are similar to those in Ruby and Perl.
|
|
|
|
</ul>
|
|
|
|
</div>
|
|
<!-- ================================================================ -->
|
|
<h1>Control structures</h1>
|
|
<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_control_structures');" href="javascript:;">Toggle section visibility</button>
|
|
<div id="section_toggle_control_structures" style="display: block">
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>Pattern-action blocks</h2>
|
|
|
|
<p/>These are reminiscent of <tt>awk</tt> syntax. They can be used to allow
|
|
assignments to be done only when appropriate — e.g. for math-function
|
|
domain restrictions, regex-matching, and so on:
|
|
|
|
POKI_RUN_COMMAND{{mlr cat data/put-gating-example-1.dkvp}}HERE
|
|
POKI_RUN_COMMAND{{mlr put '$x > 0.0 { $y = log10($x); $z = sqrt($y) }' data/put-gating-example-1.dkvp}}HERE
|
|
POKI_RUN_COMMAND{{mlr cat data/put-gating-example-2.dkvp}}HERE
|
|
POKI_RUN_COMMAND{{mlr put '$a =~ "([a-z]+)_([0-9]+)" { $b = "left_\1"; $c = "right_\2" }' data/put-gating-example-2.dkvp}}HERE
|
|
|
|
<p/>This produces heteregenous output which Miller, of course, has no problems
|
|
with (see POKI_PUT_LINK_FOR_PAGE(record-heterogeneity.html)HERE). But if you
|
|
want homogeneous output, the curly braces can be replaced with a semicolon
|
|
between the expression and the body statements. This causes <tt>put</tt> to
|
|
evaluate the boolean expression (along with any side effects, namely,
|
|
regex-captures <tt>\1</tt>, <tt>\2</tt>, etc.) but doesn’t use it as a
|
|
criterion for whether subsequent assignments should be executed. Instead,
|
|
subsequent assignments are done unconditionally:
|
|
|
|
POKI_RUN_COMMAND{{mlr put '$x > 0.0; $y = log10($x); $z = sqrt($y)' data/put-gating-example-1.dkvp}}HERE
|
|
POKI_RUN_COMMAND{{mlr put '$a =~ "([a-z]+)_([0-9]+)"; $b = "left_\1"; $c = "right_\2"' data/put-gating-example-2.dkvp}}HERE
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>If-statements</h2>
|
|
|
|
<p/>These are again reminiscent of <tt>awk</tt>. Pattern-action blocks are a special case of <tt>if</tt> with no
|
|
<tt>elif</tt> or <tt>else</tt> blocks, no <tt>if</tt> keyword, and parentheses optional around the boolean expression:
|
|
|
|
POKI_CARDIFY{{mlr put 'NR == 4 {$foo = "bar"}'}}HERE
|
|
POKI_CARDIFY{{mlr put 'if (NR == 4) {$foo = "bar"}'}}HERE
|
|
|
|
<p/>Compound statements use <tt>elif</tt> (rather than <tt>elsif</tt> or <tt>else if</tt>):
|
|
|
|
POKI_INCLUDE_ESCAPED(data/if-chain.sh)HERE
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>While and do-while loops</h2>
|
|
|
|
<p/>Miller’s <tt>while</tt> and <tt>do-while</tt> are unsurprising in
|
|
comparison to various languages, as are <tt>break</tt> and <tt>continue</tt>:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/while-example-1.sh)HERE
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/while-example-2.sh)HERE
|
|
|
|
<p/> A <tt>break</tt> or <tt>continue</tt> within nested conditional blocks or
|
|
if-statements will, of course, propagate to the innermost loop enclosing them,
|
|
if any. A <tt>break</tt> or <tt>continue</tt> outside a loop is a syntax error
|
|
that will be flagged as soon as the expression is parsed, before any input
|
|
records are ingested.
|
|
|
|
<p/> The existence of <tt>while</tt>, <tt>do-while</tt>, and <tt>for</tt> loops
|
|
in Miller’s DSL means that you can create infinite-loop scenarios
|
|
inadvertently. In particular, please recall that DSL statements are executed
|
|
once if in <tt>begin</tt> or <tt>end</tt> blocks, and once <i>per record</i>
|
|
otherwise. For example, <b><tt>while (NR < 10)</tt> will never terminate as
|
|
<tt>NR</tt> is only incremented between records</b>.
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>For-loops</h2>
|
|
|
|
<p/>While Miller’s <tt>while</tt> and <tt>do-while</tt> statements are
|
|
much as in many other languages, <tt>for</tt> loops are more idiosyncratic to
|
|
Miller. They are loops over key-value pairs, whether in stream records or
|
|
out-of-stream variables: more reminiscent of <tt>foreach</tt>, as in (for
|
|
example) PHP.
|
|
|
|
<p/> There are three variants: <b>for-loop over key-value pairs in the current
|
|
stream record</b>, <b>for-loop over key-value pairs in an out-of-stream
|
|
variable</b>, and <b>C-style triple-for loops</b>. In each of the first two
|
|
cases the <tt>in</tt> keyword specifies the hashmap being iterated over, and
|
|
the variable names between <tt>for</tt> and <tt>in</tt> are bound to the keys
|
|
and values, respectively, of the hashmap’s key-value pairs on each loop
|
|
iteration. As with <tt>while</tt> and <tt>do-while</tt>, a <tt>break</tt> or
|
|
<tt>continue</tt> within nested control structures will propagate to the
|
|
innermost loop enclosing them, if any, and a <tt>break</tt> or
|
|
<tt>continue</tt> outside a loop is a syntax error that will be flagged as soon
|
|
as the expression is parsed, before any input records are ingested.
|
|
|
|
<p/><b>For-loop over the current stream record</b>:
|
|
|
|
POKI_RUN_COMMAND{{cat data/for-srec-example.tbl}}HERE
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/for-srec-example-1.sh)HERE
|
|
POKI_RUN_COMMAND{{mlr --from data/small --opprint put 'for (k,v in $*) { $[k."_type"] = typeof(v) }'}}HERE
|
|
|
|
<p/>Note that the value of the current field in the for-loop can be gotten either using the bound
|
|
variable <tt>value</tt>, or through a <b>computed field name</b> using square brackets as in <tt>$[key]</tt>.
|
|
|
|
<p/>Important note: to avoid inconsistent looping behavior in case you’re
|
|
setting new fields (and/or unsetting existing ones) while looping over the
|
|
record, <b>Miller makes a copy of the record before the loop: loop variables
|
|
are bound from the copy and all other reads/writes involve the record
|
|
itself</b>:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/for-srec-example-2.sh)HERE
|
|
|
|
It can be confusing to modify the stream record while iterating over a copy of it, so
|
|
instead you might find it simpler to use an out-of-stream variable in the loop and only update
|
|
the stream record after the loop:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/for-srec-example-3.sh)HERE
|
|
|
|
<p/><b>For-loop over out-of-stream variable</b>: This is similar to looping
|
|
over the current stream record except for additional degrees of freedom: you
|
|
can start iterating on sub-hashmaps of an out-of-stream variable; you can loop
|
|
over nested keys; you can loop over all out-of-stream variables. As with
|
|
for-loops over stream records, the bound variables are bound to a copy of the
|
|
sub-hashmap as it was before the loop started. The sub-hashmap is specified by
|
|
square-bracketed indices after <tt>in</tt>, and additional deeper indices are
|
|
bound to loop key-variables. The terminal values are bound to the loop
|
|
value-variable whenever the keys are neither too shallow, nor too deep. Example
|
|
indexing is as follows:
|
|
|
|
POKI_INCLUDE_ESCAPED(data/for-oosvar-example-0a.txt)HERE
|
|
|
|
<p/>That’s confusing in the abstract, so a concrete example is in order.
|
|
Suppose the out-of-stream variable <tt>@myvar</tt> is populated as follows:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/for-oosvar-example-0b.sh)HERE
|
|
|
|
<p/> Then the too-shallow parts — indexed by the basename <tt>myvar</tt>
|
|
and the index <tt>"nesting-is-too-shallow"</tt> — have depth two
|
|
(basename and one index specify a terminal value) and can be gotten as follows:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/for-oosvar-example-0c.sh)HERE
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/for-oosvar-example-0d.sh)HERE
|
|
|
|
<p/>Note that it would take more than these two indices to reach the deeper values in the hashmap so they
|
|
aren’t bound in either of these for-loops.
|
|
|
|
<p/>By contrast, the <tt>"just-right"</tt> parts have depth three (basename and
|
|
two indices specify a terminal value) and can be gotten at by any of the
|
|
following:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/for-oosvar-example-0e.sh)HERE
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/for-oosvar-example-0f.sh)HERE
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/for-oosvar-example-0g.sh)HERE
|
|
|
|
<p/> Note that three key levels are specified here: basename and two indices.
|
|
So these for-loops don’t produce the depth-two or depth-four entries in
|
|
the hashmap.
|
|
|
|
<p/><b>C-style triple-for loops</b> are supported as follows:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/triple-for-example.sh)HERE
|
|
|
|
Notes:
|
|
<ul>
|
|
|
|
<li/> In <tt>for (start; continuation; update) { body }</tt>, the start,
|
|
continuation, and update statements may be empty, single statements, or
|
|
multiple comma-separated statements. If the continuation is empty it defaults
|
|
to true.
|
|
|
|
<li/> In particular, you may use <tt>$</tt>-variables and/or
|
|
<tt>@</tt>-variables in the start, continuation, and/or update steps (as well
|
|
as the body, of course).
|
|
|
|
<li/> As with all for/if/while statements in Miller, the curly braces are
|
|
required even if the body is a single statement, or empty.
|
|
|
|
</ul>
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>Begin/end blocks</h2>
|
|
|
|
<p/>Miller supports an <tt>awk</tt>-like <tt>begin/end</tt> syntax. The
|
|
statements in the <tt>begin</tt> block are executed before any input records
|
|
are read; the statements in the <tt>end</tt> block are executed after the last
|
|
input record is read. (If you want to execute some statement at the start of
|
|
each file, not at the start of the first file as with <tt>begin</tt>, you might
|
|
use a pattern/action block of the form <tt>FNR == 1 { ... }</tt>.) All
|
|
statements outside of <tt>begin</tt> or <tt>end</tt> are, of course, executed
|
|
on every input record. Semicolons separate statements inside or outside of
|
|
begin/end blocks; semicolons are required between begin/end block bodies and
|
|
any subsequent statement. For example:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/begin-end-example-1.sh)HERE
|
|
|
|
<p/>Since uninitialized out-of-stream variables default to 0 for
|
|
addition/substraction and 1 for multiplication when they appear on expression
|
|
right-hand sides (as in <tt>awk</tt>), the above can be written more succinctly
|
|
as
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/begin-end-example-2.sh)HERE
|
|
|
|
<p/>The <b>put -q</b> option is a shorthand which suppresses printing of each
|
|
output record, with only <tt>emit</tt> statements being output. So to get only
|
|
summary outputs, one could write
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/begin-end-example-3.sh)HERE
|
|
|
|
<p/>We can do similarly with multiple out-of-stream variables:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/begin-end-example-4.sh)HERE
|
|
|
|
This is of course not much different than
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/begin-end-example-5.sh)HERE
|
|
|
|
<p/>Note that it’s a syntax error for begin/end blocks to refer to field
|
|
names (beginning with <tt>$</tt>), since these execute outside the context of
|
|
input records.
|
|
|
|
</div>
|
|
<!-- ================================================================ -->
|
|
<h1>Output statements</h1>
|
|
<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_output_statements');" href="javascript:;">Toggle section visibility</button>
|
|
<div id="section_toggle_output_statements" style="display: block">
|
|
|
|
<p/>You can <b>output</b> variable-values or expressions in <b>five ways</b>:
|
|
|
|
<ul>
|
|
|
|
<li/> <b>Assign</b> them to stream-record fields. For example,
|
|
<tt>$cumulative_sum = @sum</tt>. For another example, <tt>$nr = NR</tt> adds a
|
|
field named <tt>nr</tt> to each output record, containing the value of the
|
|
built-in variable <tt>NR</tt> as of when that record was ingested.
|
|
|
|
<li/> Use <b>emit</b>/<b>emitp</b>/<b>emitf</b> to send out-of-stream
|
|
variables’ current values to the output record stream, e.g. <tt>@sum +=
|
|
$x; emit @sum</tt> which produces an extra output record such as
|
|
<tt>sum=3.1648382</tt>.
|
|
|
|
<li/> Use the <b>dump</b> or <b>edump</b> keywords, which immediately print all
|
|
out-of-stream variables as a JSON data structure to the standard output or
|
|
standard error (respectively).
|
|
|
|
<li/> Use the <b>print</b> or <b>eprint</b> keywords which immediately print an
|
|
expression to standard output or standard error, respectively. Note that
|
|
<tt>dump</tt>, <tt>edump</tt>, <tt>print</tt>, and <tt>eprint</tt> don’t
|
|
output records which participate in <tt>then</tt>-chaining; rather,
|
|
they’re just immediate prints to stdout/stderr. The <tt>printn</tt> and
|
|
<tt>eprintn</tt> keywords are the same except that they don’t print final
|
|
newlines. Additionally, you can print to a specified file instead of stdout/stderr.
|
|
|
|
<li/> Use <b>tee</b> which formats the current stream record (not just an
|
|
arbitrary string as with <b>print</b>) to a specific file.
|
|
|
|
</ul>
|
|
|
|
<p/>For the first two options you are populating the output-records stream
|
|
which feeds into the next verb in a <tt>then</tt>-chain (if any), or which otherwise
|
|
is formatted for output using <tt>--o...</tt> flags.
|
|
|
|
<p/>For the last three options you are sending output directly to standard
|
|
output, standard error, or a file.
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>Emit statements</h2>
|
|
|
|
<p/>There are three variants: <tt>emitf</tt>, <tt>emit</tt>, and
|
|
<tt>emitp</tt>. Keep in mind that out-of-stream variables are a nested,
|
|
multi-level hashmap (directly viewable as JSON using <tt>dump</tt>), whereas
|
|
Miller output records are lists of single-level key-value pairs. The three emit
|
|
variants allow you to control how the multilevel hashmaps are flatten down to
|
|
output records.
|
|
|
|
<p/>Use <b>emitf</b> to output several out-of-stream variables side-by-side in the same output record.
|
|
For <tt>emitf</tt> these mustn’t have indexing using <tt>@name[...]</tt>. Example:
|
|
|
|
POKI_RUN_COMMAND{{mlr put -q '@count += 1; @x_sum += $x; @y_sum += $y; end { emitf @count, @x_sum, @y_sum}' data/small}}HERE
|
|
|
|
<p/>Use <b>emit</b> to output an out-of-stream variable. If it’s non-indexed you’ll get a simple key-value pair:
|
|
|
|
POKI_RUN_COMMAND{{cat data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum += $x; end { dump }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum += $x; end { emit @sum }' data/small}}HERE
|
|
|
|
<p/>If it’s indexed then use as many names after <tt>emit</tt> as there are indices:
|
|
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a] += $x; end { dump }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a] += $x; end { emit @sum, "a" }' data/small}}HERE
|
|
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b] += $x; end { dump }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b] += $x; end { emit @sum, "a", "b" }' data/small}}HERE
|
|
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b][$i] += $x; end { dump }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b][$i] += $x; end { emit @sum, "a", "b", "i" }' data/small}}HERE
|
|
|
|
<p/>Now for <b>emitp</b>: if you have as many names following <tt>emit</tt> as
|
|
there are levels in the out-of-stream variable’s hashmap, then <tt>emit</tt> and <tt>emitp</tt> do the same
|
|
thing. Where they differ is when you don’t specify as many names as there are hashmap levels. In this
|
|
case, Miller needs to flatten multiple map indices down to output-record keys: <tt>emitp</tt> includes full
|
|
prefixing (hence the <tt>p</tt> in <tt>emitp</tt>) while <tt>emit</tt> takes the deepest hashmap key as the
|
|
output-record key:
|
|
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b] += $x; end { dump }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b] += $x; end { emit @sum, "a" }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b] += $x; end { emit @sum }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b] += $x; end { emitp @sum, "a" }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b] += $x; end { emitp @sum }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr --oxtab put -q '@sum[$a][$b] += $x; end { emitp @sum }' data/small}}HERE
|
|
|
|
<p/>Use <b>--oflatsep</b> to specify the character which joins multilevel
|
|
keys for <tt>emitp</tt> (it defaults to a colon):
|
|
|
|
POKI_RUN_COMMAND{{mlr put -q --oflatsep / '@sum[$a][$b] += $x; end { emitp @sum, "a" }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q --oflatsep / '@sum[$a][$b] += $x; end { emitp @sum }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr --oxtab put -q --oflatsep / '@sum[$a][$b] += $x; end { emitp @sum }' data/small}}HERE
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>Multi-emit statements</h2>
|
|
|
|
<p/>You can emit <b>multiple out-of-stream variables side-by-side</b> by including their names in parentheses:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/emit-lashed.sh)HERE
|
|
|
|
What this does is walk through the first out-of-stream variable
|
|
(<tt>@x_sum</tt> in this example) as usual, then for each keylist found (e.g.
|
|
<tt>pan,wye</tt>), include the values for the remaining out-of-stream variables
|
|
(here, <tt>@x_count</tt> and <tt>@x_mean</tt>). You should use this when all
|
|
out-of-stream variables in the emit statement have the same shape and the same
|
|
keylists.
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>Emit-all statements</h2>
|
|
|
|
<p/>Use <b>emit all</b> (or <tt>emit @*</tt> which is synonumous) to output all
|
|
out-of-stream variables. You can use the following idiom to get various
|
|
accumulators output side-by-side (reminiscent of <tt>mlr stats1</tt>):
|
|
|
|
POKI_RUN_COMMAND{{mlr --from data/small --opprint put -q '@v[$a][$b]["sum"] += $x; @v[$a][$b]["count"] += 1; end{emit @*,"a","b"}'}}HERE
|
|
POKI_RUN_COMMAND{{mlr --from data/small --opprint put -q '@sum[$a][$b] += $x; @count[$a][$b] += 1; end{emit @*,"a","b"}'}}HERE
|
|
POKI_RUN_COMMAND{{mlr --from data/small --opprint put -q '@sum[$a][$b] += $x; @count[$a][$b] += 1; end{emit (@sum, @count),"a","b"}'}}HERE
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>Redirected-output statements</h2>
|
|
|
|
The <b>tee</b>, <b>emitf</b>, <b>emitp</b>, <b>emit</b>, <b>print</b>, and
|
|
<b>dump</b> keywords all allow you to redirect output to one or more files or
|
|
pipe-to commands. The filenames/commands are strings which can be constructed
|
|
using record-dependent values, so you can do things like splitting a table into
|
|
multiple files, one for each account ID, and so on.
|
|
|
|
<p/> Details:
|
|
|
|
<ul>
|
|
|
|
<li/> <tt>mlr put</tt> sends the current record (possibly modified by the
|
|
<tt>put</tt> expression) to the output record stream. Records are then input to
|
|
the following verb in a <tt>then</tt>-chain (if any), else printed to standard
|
|
output (unless <tt>put -q</tt>). The <b>tee</b> keyword <i>additionally</i>
|
|
writes the output record to specified file(s) or pipe-to command, or
|
|
immediately to <tt>stdout</tt>/<tt>stderr</tt>.
|
|
|
|
POKI_RUN_COMMAND{{mlr --help-keyword tee}}HERE
|
|
|
|
<li/> <tt>mlr put</tt>’s <tt>emitf</tt>, <tt>emitp</tt>, and
|
|
<tt>emit</tt> send out-of-stream variables to the output record stream. These
|
|
are then input to the following verb in a <tt>then</tt>-chain (if any), else
|
|
printed to standard output. When redirected with <tt>></tt>,
|
|
<tt>>></tt>, or <tt>|</tt>, they <i>instead</i> write the out-of-stream
|
|
variable(s) to specified file(s) or pipe-to command, or immediately to
|
|
<tt>stdout</tt>/<tt>stderr</tt>.
|
|
|
|
POKI_RUN_COMMAND{{mlr --help-keyword emitf}}HERE
|
|
POKI_RUN_COMMAND{{mlr --help-keyword emitp}}HERE
|
|
POKI_RUN_COMMAND{{mlr --help-keyword emit}}HERE
|
|
|
|
<li/> The <tt>print</tt> and <tt>dump</tt> keywords produce output immediately
|
|
to standard output, or to specified file(s) or pipe-to command if present.
|
|
|
|
POKI_RUN_COMMAND{{mlr --help-keyword print}}HERE
|
|
POKI_RUN_COMMAND{{mlr --help-keyword dump}}HERE
|
|
|
|
</ul>
|
|
|
|
</div>
|
|
<!-- ================================================================ -->
|
|
<h1>Unset statements</h1>
|
|
<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_unset_statements');" href="javascript:;">Toggle section visibility</button>
|
|
<div id="section_toggle_unset_statements" style="display: block">
|
|
|
|
<p/>You can clear a map key by assigning the empty string as its value: <tt>$x=""</tt> or <tt>@x=""</tt>.
|
|
Using <tt>unset</tt> you can remove the key entirely. Examples:
|
|
|
|
POKI_RUN_COMMAND{{cat data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put 'unset $x, $a' data/small}}HERE
|
|
|
|
<p/>This can also be done, of course, using <tt>mlr cut -x</tt>. You can also clear out-of-stream variables, at the base name level, or at an indexed sublevel:
|
|
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b] += $x; end { dump; unset @sum; dump }' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put -q '@sum[$a][$b] += $x; end { dump; unset @sum["eks"]; dump }' data/small}}HERE
|
|
|
|
<p/>If you use <tt>unset all</tt> (or <tt>unset @*</tt> which is synonymous), that will unset all out-of-stream
|
|
variables which have been defined up to that point.
|
|
|
|
</div>
|
|
<!-- ================================================================ -->
|
|
<h1>Filter statements</h1>
|
|
<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_filter_statements');" href="javascript:;">Toggle section visibility</button>
|
|
<div id="section_toggle_filter_statements" style="display: block">
|
|
|
|
<p/> You can use <tt>filter</tt> within <tt>put</tt>. In fact, the
|
|
following two are synonymous:
|
|
|
|
POKI_RUN_COMMAND{{mlr filter 'NR==2 || NR==3' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put 'filter NR==2 || NR==3' data/small}}HERE
|
|
|
|
<p/>The former, of course, is much easier to type. But the latter allows you to define more complex expressions
|
|
for the filter, and/or do other things in addition to the filter:
|
|
|
|
POKI_RUN_COMMAND{{mlr put '@running_sum += $x; filter @running_sum > 1.3' data/small}}HERE
|
|
POKI_RUN_COMMAND{{mlr put '$z = $x * $y; filter $z > 0.3' data/small}}HERE
|
|
|
|
</div>
|
|
<!-- ================================================================ -->
|
|
<h1>Built-in functions for filter and put</h1>
|
|
<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_built_in_functions');" href="javascript:;">Toggle section visibility</button>
|
|
<div id="section_toggle_built_in_functions" style="display: block">
|
|
|
|
<p/>Each function takes a specific number of arguments, as shown below, except
|
|
for functions marked as variadic such as <tt>min</tt> and <tt>max</tt>. (The
|
|
latter compute min and max of any number of numerical arguments.) There is no
|
|
notion of optional or default-on-absent arguments. All argument-passing is
|
|
positional rather than by name; arguments are passed by value, not by
|
|
reference.
|
|
|
|
POKI_RUN_COMMAND{{mlr --help-all-functions | fmt -80}}HERE
|
|
|
|
</div>
|
|
<!-- ================================================================ -->
|
|
<h1>User-defined functions and subroutines</h1>
|
|
<button style="font-weight:bold;color:maroon;border:0" padding=0 onclick="toggle_by_name('section_toggle_user_defined_functions');" href="javascript:;">Toggle section visibility</button>
|
|
<div id="section_toggle_user_defined_functions" style="display: block">
|
|
|
|
<p/> As of Miller 5.0.0 you can define your own functions, as well as subroutines.
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>User-defined functions</h2>
|
|
|
|
<p/>Here’s the obligatory example of a recursive function to compute the factorial function:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/factorial-example.sh)HERE
|
|
|
|
<p/>Properties of user-defined functions:
|
|
|
|
<ul>
|
|
|
|
<li/> Function bodies start with <tt>func</tt> and a parameter list, defined
|
|
outside of <tt>begin</tt>, <tt>end</tt>, or other <tt>func</tt> or
|
|
<tt>subr</tt> blocks. (I.e. the Miller DSL has no nested functions.)
|
|
|
|
<li/> A function (uniqified by its name) may not be redefined: either by
|
|
redefining a user-defined function, or by redefining a built-in function.
|
|
However, functions and subroutines have separate namespaces: you can define a
|
|
subroutine <tt>log</tt> which does not clash with the mathematical <tt>log</tt>
|
|
function.
|
|
|
|
<li/> Functions may be defined either before or after use (there is an
|
|
object-binding/linkage step at startup). More specifically, functions may be
|
|
either recursive or mutually recursive. Functions may not call subroutines.
|
|
|
|
<li/> Functions may be defined and called either within <tt>mlr put</tt> or
|
|
<tt>mlr put</tt>.
|
|
|
|
<li/> Functions have read access to <tt>$</tt>-variables and
|
|
<tt>@</tt>-variables but may not modify them.
|
|
See also
|
|
<a href="cookbook.html#Memoization_with_out-of-stream_variables">this cookbook item</a> for an example.
|
|
|
|
<li/> Argument values may be reassigned: they are not read-only.
|
|
|
|
<li/> When a return value is not implicitly returned, this results in a return
|
|
value of absent-null. (In the example above, if there were records for which
|
|
the argument to <tt>f</tt> is non-numeric, the assignments would be skipped.)
|
|
See also the section on
|
|
<a href="#Null_data:_empty_and_absent">empty_and_absent null data</a>.
|
|
|
|
<li/> See the section on <a href="#Local_variables">local variables</a> for
|
|
information on scope and extent of arguments, as well as for information on the
|
|
use of local variables within functions.
|
|
|
|
<li/> See the section on <a href="#Expressions_from_files">expressions from
|
|
files</a> for information on the use of <tt>-f</tt> and <tt>-e</tt> flags.
|
|
|
|
</ul>
|
|
|
|
<!-- ================================================================ -->
|
|
<h2>User-defined subroutines</h2>
|
|
|
|
<p/>Example:
|
|
|
|
POKI_INCLUDE_AND_RUN_ESCAPED(data/subr-example.sh)HERE
|
|
|
|
<p/>Properties of user-defined subroutines:
|
|
|
|
<ul>
|
|
|
|
<li/> Subroutine bodies start with <tt>subr</tt> and a parameter list, defined
|
|
outside of <tt>begin</tt>, <tt>end</tt>, or other <tt>func</tt> or
|
|
<tt>subr</tt> blocks. (I.e. the Miller DSL has no nested subroutines.)
|
|
|
|
<li/> A subroutine (uniqified by its name) may not be redefined.
|
|
However, functions and subroutines have separate namespaces: you can define a
|
|
subroutine <tt>log</tt> which does not clash with the mathematical <tt>log</tt>
|
|
function.
|
|
|
|
<li/> Subroutines may be defined either before or after use (there is an
|
|
object-binding/linkage step at startup). More specifically, subroutines may be
|
|
either recursive or mutually recursive. Subroutines may call functions.
|
|
|
|
<li/> Subroutines may be defined and called either within <tt>mlr put</tt> or
|
|
<tt>mlr put</tt>.
|
|
|
|
<li/> Subroutines have read/write access to <tt>$</tt>-variables and
|
|
<tt>@</tt>-variables.
|
|
|
|
<li/> Argument values may be reassigned: they are not read-only.
|
|
|
|
<li/> See the section on <a href="#Local_variables">local variables</a> for
|
|
information on scope and extent of arguments, as well as for information on the
|
|
use of local variables within functions.
|
|
|
|
<li/> See the section on <a href="#Expressions_from_files">expressions from
|
|
files</a> for information on the use of <tt>-f</tt> and <tt>-e</tt> flags.
|
|
|
|
</ul>
|
|
|
|
</div>
|
|
<!-- ================================================================ -->
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<h1>A note on the complexity of Miller’s expression language</h1>
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<p/> One of Miller’s strengths is its brevity: it’s much quicker
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— and less error-prone — to type <tt>mlr stats1 -a sum -f x,y -g
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a,b</tt> than having to track summation variables as in <tt>awk</tt>, or using
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Miller’s out-of-stream variables. And the more language features
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Miller’s put-DSL has (for-loops, if-statements, nested control
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structures, etc.) then the <i>less</i> powerful it begins to seem: because of
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the other programming-language features it <i>doesn’t</i> have.
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<p/> When I was originally prototyping Miller in 2015, the decision I had was
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whether to hand-code in a low-level language like C or Rust, with my own
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hand-rolled DSL, or whether to use a higher-level language (like Python or Lua
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or Nim) and let the <tt>put</tt> statements be handled by the implementation
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language’s own <tt>eval</tt>: the implementation language would take the
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place of a DSL. Multiple performance experiments showed me I could get better
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throughput using the former, and using C in particular — by a wide margin. So
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Miller is C under the hood with a hand-rolled DSL.
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<p/> I do want to keep focusing on what Miller is good at — concise notation,
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low latency, and high throughput — and not add too much in terms of
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high-level-language features to the DSL. That said, some sort of looping over
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field names is a basic thing to want. As of 4.1.0 we have recursive
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for/while/if structures on about the same complexity level as <tt>awk</tt>.
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While I’m excited by these powerful language features, I hope to keep new
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features beyond 4.1.0 focused on Miller’s sweet spot which is speed plus
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simplicity.
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