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Edamame

Configurable EDN/Clojure parser with location metadata.

CircleCI Clojars Project

Reasons to use edamame

  • You want to include locations in feedback about Clojure and EDN files
  • You want to parse Clojure-like expressions without any evaluation
  • Anonymous functions are read deterministically
  • Highly configurable
  • Auto-resolve aliased keywords based on the ns form

This library works with:

  • Clojure on the JVM
  • GraalVM compiled binaries
  • ClojureScript (including self-hosted and advanced compiled)

Installation

Use as a dependency:

Clojars Project

Projects

Project using edamame:

API

See API.

Usage

(require '[edamame.core :as e :refer [parse-string]])

Location metadata

Locations are attached as metadata:

(def s "
[{:a 1}
 {:b 2}]")
(map meta (parse-string s))
;;=>
({:row 2, :col 2, :end-row 2, :end-col 8}
 {:row 3, :col 2, :end-row 3, :end-col 8})

(->> "{:a {:b {:c [a b c]}}}"
     parse-string
     (tree-seq coll? #(if (map? %) (vals %) %))
     (map meta))
;;=>
({:row 1, :col 1, :end-row 1, :end-col 23}
 {:row 1, :col 5, :end-row 1, :end-col 22}
 {:row 1, :col 9, :end-row 1, :end-col 21}
 {:row 1, :col 13, :end-row 1, :end-col 20}
 {:row 1, :col 14, :end-row 1, :end-col 15}
 {:row 1, :col 16, :end-row 1, :end-col 17}
 {:row 1, :col 18, :end-row 1, :end-col 19})

You can control on which elements locations get added using the :location? option.

Parser options

Edamame's API consists of two functions: parse-string which parses a the first form from a string and parse-string-all which parses all forms from a string. Both functions take the same options. See the docstring of parse-string for all the options.

Examples:

(parse-string "@foo" {:deref true})
;;=> (deref foo)

(parse-string "'bar" {:quote true})
;;=> (quote bar)

(parse-string "#(* % %1 %2)" {:fn true})
;;=> (fn [%1 %2] (* %1 %1 %2))

(parse-string "#=(+ 1 2 3)" {:read-eval true})
;;=> (read-eval (+ 1 2 3))

(parse-string "#\"foo\"" {:regex true})
;;=> #"foo"

(parse-string "#'foo" {:var true})
;;=> (var foo)

(parse-string "#(alter-var-root #'foo %)" {:all true})
;;=> (fn [%1] (alter-var-root (var foo) %1))

Note that standard behavior is overridable with functions:

(parse-string "#\"foo\"" {:regex #(list 're-pattern %)})
(re-pattern "foo")

Clojure defaults

The closest defaults to how Clojure reads code:

{:all true
 :row-key :line
 :col-key :column
 :end-location false
 :location? seq?}

Reader conditionals

Process reader conditionals:

(parse-string "[1 2 #?@(:cljs [3 4])]" {:features #{:cljs} :read-cond :allow})
;;=> [1 2 3 4]

(parse-string "[1 2 #?@(:cljs [3 4])]" {:features #{:cljs} :read-cond :preserve})
;;=> [1 2 #?@(:cljs [3 4])]

(let [res (parse-string "#?@(:bb 1 :clj 2)" {:read-cond identity})]
  (prn res) (prn (meta res)))
;;=> (:bb 1 :clj 2)
;;=> {:row 1, :col 1, :end-row 1, :end-col 18, :edamame/read-cond-splicing true}

Auto-resolve

Auto-resolve keywords:

(parse-string "[::foo ::str/foo]" {:auto-resolve '{:current user str clojure.string}})
;;=> [:user/foo :clojure.string/foo]

If you don't care much about the exact value of the keyword, but just want to parse something:

(parse-string "[::foo ::str/foo]" {:auto-resolve name})
;;=> [:current/foo :str/foo]

To create options from a namespace in the process where edamame is called from:

(defn auto-resolves [ns]
  (as-> (ns-aliases ns) $
    (assoc $ :current (ns-name *ns*))
    (zipmap (keys $)
            (map ns-name (vals $)))))

(require '[clojure.string :as str]) ;; create example alias

(auto-resolves *ns*) ;;=> {str clojure.string, :current user}

(parse-string "[::foo ::str/foo]" {:auto-resolve (auto-resolves *ns*)})
;;=> [:user/foo :clojure.string/foo]

To auto-resolve keywords from the running Clojure environment:

(require '[clojure.test :as t])
(e/parse-string "::t/foo" {:auto-resolve (fn [x] (if (= :current x) *ns* (get (ns-aliases *ns*) x)))})
:clojure.test/foo

:auto-resolve-ns

To auto-magically resolve keywords based on the ns form, use :auto-resolve-ns true:

(= '[(ns foo (:require [clojure.set :as set])) :clojure.set/foo]
    (parse-string-all "(ns foo (:require [clojure.set :as set])) ::set/foo"
                      {:auto-resolve-ns true}))

(def rdr (p/reader "(ns foo (:require [clojure.set :as set])) ::set/foo"))
(def opts (p/normalize-opts {:auto-resolve-ns true}))
(= (ns foo (:require [clojure.set :as set])) (p/parse-next rdr opts))
(= :clojure.set/foo (p/parse-next rdr opts))

Syntax-quote

Syntax quoting can be enabled using the :syntax-quote option. Symbols are resolved to fully qualified symbols using :resolve-symbol which is set to identity by default:

(parse-string "`(+ 1 2 3 ~x ~@y)" {:syntax-quote true})
;;=> (clojure.core/sequence (clojure.core/seq (clojure.core/concat (clojure.core/list (quote +)) (clojure.core/list 1) (clojure.core/list 2) (clojure.core/list 3) (clojure.core/list x) y)))

(parse-string "`(+ 1 2 3 ~x ~@y)" {:syntax-quote {:resolve-symbol #(symbol "user" (name %))}})
;;=> (clojure.core/sequence (clojure.core/seq (clojure.core/concat (clojure.core/list (quote user/+)) (clojure.core/list 1) (clojure.core/list 2) (clojure.core/list 3) (clojure.core/list x) y)))

To resolve symbols in syntax quote from the running Clojure environment:

(require '[clojure.tools.reader :refer [resolve-symbol]])

(require '[clojure.test :as t])
(e/parse-string "`t/run-tests" {:syntax-quote {:resolve-symbol resolve-symbol}})
;;=> (quote clojure.test/run-tests)

Data readers

Passing data readers:

(parse-string "#js [1 2 3]" {:readers {'js (fn [v] (list 'js v))}})
(js [1 2 3])

Postprocess

Postprocess read values:

(defrecord Wrapper [obj loc])

(defn iobj? [x]
  #?(:clj (instance? clojure.lang.IObj x)
     :cljs (satisfies? IWithMeta x)))

(parse-string "[1]" {:postprocess
                       (fn [{:keys [:obj :loc]}]
                         (if (iobj? obj)
                           (vary-meta obj merge loc)
                           (->Wrapper obj loc)))})

[#user.Wrapper{:obj 1, :loc {:row 1, :col 2, :end-row 1, :end-col 3}}]

This allows you to preserve metadata for objects that do not support carrying metadata. When you use a :postprocess function, it is your responsibility to attach location metadata.

Fix incomplete expressions

Edamame exposes information via ex-data in an exception in case of unmatched delimiters. This can be used to fix incomplete expressions:

(def incomplete "{:a (let [x 5")

(defn fix-expression [expr]
  (try (when (parse-string expr)
         expr)
       (catch clojure.lang.ExceptionInfo e
         (if-let [expected-delimiter (:edamame/expected-delimiter (ex-data e))]
           (fix-expression (str expr expected-delimiter))
           (throw e)))))

(fix-expression incomplete) ;; => "{:a (let [x 5])}"

Test

For the node tests, ensure clojure is installed as a command line tool as shown here. For the JVM tests you will require leiningen to be installed. Then run the following:

script/test/jvm
script/test/node
script/test/all

Credits

The code is largely inspired by rewrite-clj and derived projects.

License

Copyright © 2019-2022 Michiel Borkent

Distributed under the Eclipse Public License 1.0. This project contains code from Clojure and ClojureScript which are also licensed under the EPL 1.0. See LICENSE.

Can you improve this documentation? These fine people already did:
Michiel Borkent, Kim Kinnear, Crispin Wellington, sogaiu & Tommi Reiman
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