rewrite-clj is a library offering mechanisms to easily rewrite Clojure/EDN documents in a whitespace- and comment-preserving way. It includes an EDN parser (based on clojure.tools.reader), a corresponding printer, as well as an EDN-aware zipper implementation (based on clojure.zip).
This project is similar to Christophe Grand's sjacket. In fact, I found it hard to use sjacket, partly because of the underlying data structure (a parsely-generated tree including unnecessary data like parentheses and maintaining values as strings instead of their Clojure pendants), but mostly because of the missing documentation. For those with similar experiences: rewrite-clj is for you!
Leiningen (via Clojars)
Auto-generated documentation can be found here.
The parser relies on clojure.tools.reader when handling simple tokens and generates a custom node type representing EDN forms:
(require '[rewrite-clj.parser :as p])
(p/parse-string "(defn my-function [a]\n (* a 3))"
;; => <list:
;; (defn my-function [a]
;; (* a 3))
;; >
These nodes can be analysed using functions in rewrite-clj.node
:
(require '[rewrite-clj.node :as n])
(n/tag form) ;; => :list
(n/children form) ;; => (<token: defn> <whitespace: " "> <token: my-function> ...)
(n/sexpr form) ;; => (defn my-function [a] (* a 3))
(n/child-sexprs form) ;; => (defn my-function [a] (* a 3))
To convert the structure back to a printable string, use:
(n/string form) ;; => "(defn my-function [a]\n (* a 3))"
You can create a node from nearly any value using coerce
:
(n/coerce '[a b c]) ;; => <vector: [a b c]>
Alternatively, by hand:
(n/meta-node
(n/token-node :private)
(n/token-node 'sym))
;; => <meta: ^:private sym>
See the auto-generated documentation for more information.
To traverse/modify the generated structure you can use rewrite-clj's whitespace-/comment-/value-aware zipper operations.
(require '[rewrite-clj.zip :as z])
(def data-string
"(defn my-function [a]
;; a comment
(* a 3))")
(def data (z/of-string data-string))
(z/sexpr data) ;; => (defn my-function [a] (* a 3))
(-> data z/down z/right z/node) ;; => <token: my-function>
(-> data z/down z/right z/sexpr) ;; => my-function
(-> data z/down z/right (z/edit (comp symbol str) "2") z/up z/sexpr)
;; => (defn my-function2 [a] (* a 3))
(-> data z/down z/right (z/edit (comp symbol str) "2") z/print-root)
;; (defn my-function2 [a]
;; ;; a comment
;; (* a 3))
;; => nil
rewrite-clj.zip/edit
and rewrite-clj.zip/replace
try to facilitate their use
by transparently coercing between the node's internal representation (<token: my-function>
)
and its corresponding s-expression (my-function
).
See the auto-generated documentation for more information.
rewrite-clj.zip
offers a series of find
operations that can be used to determine specific
positions in the code. For example, you might want to modify a project.clj
of the following
form by replacing the :description
placeholder text with something meaningful:
(defproject my-project "0.1.0-SNAPSHOT"
:description "Enter description"
...)
Most find operations take an optional movement function as parameter. If you wanted to perform
a depth-first search you'd use rewrite-clj.zip/next
, if you wanted to look for something on
the same level as the current location, you'd employ rewrite-clj.zip/right
(the default) or
rewrite-clj.zip/left
.
Now, to enter the project map, you'd look for the symbol defproject
in a depth-first way:
(def data (z/of-file "project.clj"))
(def prj-map (z/find-value data z/next 'defproject))
The :description
keyword should be on the same layer, the corresponding string right of it:
(def descr (-> prj-map (z/find-value :description) z/right))
(z/sexpr descr) ;; => "Enter description"
Replace it, zip up and print the result:
(-> descr (z/replace "My first Project.") z/print-root)
;; (defproject my-project "0.1.0-SNAPSHOT"
;; :description "My first Project."
;; ...)
;; => nil
See the auto-generated documentation for more information.
rewrite-clj aims at providing easy ways to work with Clojure data structures. It offers functions corresponding to the standard seq functions designed to work with zipper nodes containing said structures, e.g.:
(def data (z/of-string "[1\n2\n3]"))
(z/vector? data) ;; => true
(z/sexpr data) ;; => [1 2 3]
(-> data (z/get 1) z/node) ;; => #<token: 2>
(-> data (z/assoc 1 5) z/sexpr) ;; => [1 5 3]
(->> data (z/map #(z/edit % + 4)) z/->root-string)
;; => "[5\n6\n7]"
See the auto-generated documentation for more information.
MIT License
Copyright (c) 2013-2016 Yannick Scherer
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.