miller/pkg/dsl
John Kerl a55327c7ef
Add sparkline DSL function and mlr sparkline verb (#166) (#2177)
Adds a sparkline(array|map) built-in that renders numeric values as a
Unicode block-character string (▁▂▃▄▅▆▇█), plus a new `mlr sparkline`
verb that summarizes each field's values in record order -- useful for
eyeballing trends without external plotting tools.

Also adds `-s` to `mlr histogram` to sparkline a field's binned counts
(its distribution shape) rather than emitting one record per bin. This
is a different chart from `mlr sparkline` (order-independent binning
vs. record-order values), and the docs for each cross-reference the
other to avoid conflating them.

Co-authored-by: Claude Sonnet 5 <noreply@anthropic.com>
2026-07-07 15:47:01 -04:00
..
cst Add sparkline DSL function and mlr sparkline verb (#166) (#2177) 2026-07-07 15:47:01 -04:00
ast_types.go Add a first-class bytes type to the DSL, with b"..." literals and base64/hex codecs (#2122) 2026-07-03 11:58:44 -04:00
doc.go Export library code in pkg/ (#1391) 2023-09-10 17:15:13 -04:00
README.md Replace GOCC parser-generator with PGPG (#2015) 2026-03-15 22:28:57 -04:00

Parsing a Miller DSL (domain-specific language) expression goes through three representations:

  • Source code which is a string of characters.
  • Abstract syntax tree (AST)
  • Concrete syntax tree (AST)

The job of the PGPG parser is to turn the DSL string into an AST.

The job of the CST builder is to turn the AST into a CST.

The job of the put and filter transformers is to execute the CST statements on each input record.

Source-code representation

For example, the part between the single quotes in

mlr put '$v = $i + $x * 4 + 100.7 * $y' myfile.dat

AST representation

Use put -v to display the AST:

mlr -n put -v '$v = $i + $x * 4 + 100.7 * $y'
RAW AST:
* StatementBlock
    * SrecDirectAssignment "=" "="
        * DirectFieldName "md_token_field_name" "v"
        * Operator "+" "+"
            * Operator "+" "+"
                * DirectFieldName "md_token_field_name" "i"
                * Operator "*" "*"
                    * DirectFieldName "md_token_field_name" "x"
                    * IntLiteral "md_token_int_literal" "4"
            * Operator "*" "*"
                * FloatLiteral "md_token_float_literal" "100.7"
                * DirectFieldName "md_token_field_name" "y"

Note the following about the AST:

  • Parentheses, commas, semicolons, line endings, whitespace are all stripped away
  • Variable names and literal values remain as leaf nodes of the AST
  • Operators like = + - * / **, function names, and so on remain as non-leaf nodes of the AST
  • Operator precedence is clear from the tree structure

Operator-precedence examples:

$ mlr -n put -v '$x = 1 + 2 * 3'
RAW AST:
* StatementBlock
    * SrecDirectAssignment "=" "="
        * DirectFieldName "md_token_field_name" "x"
        * Operator "+" "+"
            * IntLiteral "md_token_int_literal" "1"
            * Operator "*" "*"
                * IntLiteral "md_token_int_literal" "2"
                * IntLiteral "md_token_int_literal" "3"
$ mlr -n put -v '$x = 1 * 2 + 3'
RAW AST:
* StatementBlock
    * SrecDirectAssignment "=" "="
        * DirectFieldName "md_token_field_name" "x"
        * Operator "+" "+"
            * Operator "*" "*"
                * IntLiteral "md_token_int_literal" "1"
                * IntLiteral "md_token_int_literal" "2"
            * IntLiteral "md_token_int_literal" "3"
$ mlr -n put -v '$x = 1 * (2 + 3)'
RAW AST:
* StatementBlock
    * SrecDirectAssignment "=" "="
        * DirectFieldName "md_token_field_name" "x"
        * Operator "*" "*"
            * IntLiteral "md_token_int_literal" "1"
            * Operator "+" "+"
                * IntLiteral "md_token_int_literal" "2"
                * IntLiteral "md_token_int_literal" "3"

CST representation

There's no -v display for the CST, but it's simply a reshaping of the AST with pre-processed setup of function pointers to handle each type of statement on a per-record basis.

The if/else and/or switch statements to decide what to do with each AST node are done at CST-build time, so they don't need to be re-done when the syntax tree is executed once on every data record.

Source directories/files

  • The AST logic is in ./ast*.go. I didn't use a pkg/dsl/ast naming convention, although that would have been nice, in order to avoid a Go package-dependency cycle.
  • The CST logic is in ./cst. Please see cst/README.md for more information.