190 lines
7 KiB
Clojure
190 lines
7 KiB
Clojure
(ns rewrite-clj.node.coercer-test
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(:require [clojure.test :refer [deftest testing is are]]
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[rewrite-clj.node :as node]
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[rewrite-clj.node.protocols :as protocols]
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[rewrite-clj.node.regex :as regex]
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[rewrite-clj.parser :as p]))
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(deftest t-sexpr->node->sexpr-roundtrip
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(testing "simple cases roundtrip"
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(are [?sexpr expected-tag expected-type]
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(let [n (node/coerce ?sexpr)]
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(is (node/node? n))
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(is (= ?sexpr (node/sexpr n)))
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(is (string? (node/string n)))
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(is (= expected-tag (node/tag n)) "tag")
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#_(is (= expected-type (protocols/node-type n)) "node-type")
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(is (not (meta n)))
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(if (seq? ?sexpr)
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(is (seq? (node/sexpr n)))
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(is (= (type (node/sexpr n)) (type ?sexpr) ))))
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;; numbers
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;; note that we do have an integer-node, but rewrite-clj never parses to it
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;; so we never coerce to it either
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3 :token :token
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3N :token :token
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3.14 :token :token
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3.14M :token :token
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3e14 :token :token
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;; ratios are not valid in cljs
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#?@(:clj [3/4 :token :token])
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;; symbol/keyword/string/...
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'symbol :token :symbol
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'namespace/symbol :token :symbol
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:keyword :token :keyword
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:1.5.1 :token :keyword
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::keyword :token :keyword
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::1.5.1 :token :keyword
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:namespace/keyword :token :keyword
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"" :token :string
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"hello, over there!" :token :string
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"multi\nline" :token :string
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" " :token :string
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"\n" :token :string
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"\n\n" :token :string
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"," :token :string
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"inner\"quote" :token :string
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"\\s+" :token :string
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;; seqs
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[] :vector :seq
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[1 2 3] :vector :seq
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() :list :seq
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'() :list :seq
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(list 1 2 3) :list :seq
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#{} :set :seq
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#{1 2 3} :set :seq
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(cons 1 [2 3]) :list :seq
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(lazy-seq [1 2 3]) :list :seq
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;; date
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#inst "2014-11-26T00:05:23" :token :token))
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(testing "multi-line string newline variants are preserved"
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(let [s "hey\nyou\rover\r\nthere"
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n (node/coerce s)]
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(is (= s (node/sexpr n)))))
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(testing "coerce string roundtrip"
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(is (= "\"hey \\\" man\"" (-> "hey \" man" node/coerce node/string))))
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(testing "coerce string equals parsed string"
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(is (= (p/parse-string "\"hello\"") (node/coerce "hello")))))
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(deftest
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t-quoted-list-reader-location-metadata-elided
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(are [?sexpr expected-meta-keys]
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(let [n (node/coerce ?sexpr)]
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(is (node/node? n))
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(is (= expected-meta-keys (node/string n)))
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(is (string? (node/string n)))
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(is (= ?sexpr (node/sexpr n)))
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(is (not (meta n)))
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(is (= (type ?sexpr) (type (node/sexpr n)))))
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'(1 2 3) "(1 2 3)"
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'^:other-meta (4 5 6) "^{:other-meta true} (4 5 6)"))
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(deftest t-maps
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(are [?sexpr]
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(let [n (node/coerce ?sexpr)]
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(is (node/node? n))
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(is (= :map (node/tag n)))
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#_(is (= :seq (protocols/node-type n)))
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(is (string? (node/string n)))
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(is (= ?sexpr (node/sexpr n)))
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;; we do not restore to original map (hash-map or array-map),
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;; checking if we convert to any map is sufficient
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(is (map? (node/sexpr n))))
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{}
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{:a 1 :b 2}
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(hash-map)
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(hash-map :a 0 :b 1)
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(array-map)
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(array-map :d 4 :e 5)))
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(deftest t-sexpr->node->sexpr-roundtrip-for-regex
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(are [?in]
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(let [n (node/coerce ?in)]
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(is (node/node? n))
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(is (= :regex (node/tag n)))
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#_(is (= :regex (protocols/node-type n)))
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(is (string? (node/string n)))
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(is (= (list 're-pattern (regex/pattern-string-for-regex ?in))
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(node/sexpr n))))
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#"abc"
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#"a\nb\nc"
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#"a\.\s*"
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#"[a-z0-9!#$%&'*+/=?^_`{|}~-]+(?:\.[a-z0-9!#$%&'*+/=?^_`{|}~-]+)*@(?:[a-z0-9](?:[a-z0-9-]*[a-z0-9])?\.)+[a-z0-9](?:[a-z0-9-]*[a-z0-9])?"))
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#_(deftest
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^:skip-for-sci ;; sci, by design has its own var type, so skip this one for sci
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t-vars
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(let [n (node/coerce #'identity)]
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(is (node/node? n))
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(is (= :var (node/tag n)))
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(is (= :reader (protocols/node-type n)))
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(is (= '(var #?(:clj clojure.core/identity :cljs cljs.core/identity)) (node/sexpr n)))))
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(deftest t-nil
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(let [n (node/coerce nil)]
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(is (node/node? n))
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(is (= :token (node/tag n)))
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#_(is (= :token (protocols/node-type n)))
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(is (= nil (node/sexpr n)))
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(is (= n (p/parse-string "nil")))))
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(defrecord Foo-Bar [a])
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#_(deftest
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^:skip-for-sci ;; records have special metadata in sci, so skip this one for sci
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t-records
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(let [v (Foo-Bar. 0)
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n (node/coerce v)]
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(is (node/node? n))
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;; records are represented by rewrite-clj reader macro nodes
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(is (= :reader-macro (node/tag n)))
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(is (= (pr-str v) (node/string n)))))
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(deftest t-nodes-coerce-to-themselves
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(testing "parsed nodes"
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;; lean on the parser to create node structures
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(are [?s ?tag ?type]
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(let [n (p/parse-string ?s)]
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(is (= n (node/coerce n)))
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(is (= ?tag (node/tag n)))
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#_(is (= ?type (protocols/node-type n))))
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";; comment" :comment :comment
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"#! comment" :comment :comment
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"#(+ 1 %)" :fn :fn
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":my-kw" :token :keyword
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"^:m1 [1 2 3]" :meta :meta
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"#:p1{:a 1 :b 2}" :namespaced-map :namespaced-map
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"'a" :quote :quote
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"#'var" :var :reader
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"#=eval" :eval :reader
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"@deref" :deref :deref
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"#mymacro 44" :reader-macro :reader-macro
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"#\"regex\"" :regex :regex
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"[1 2 3]" :vector :seq
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"42" :token :token
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"sym" :token :symbol
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"#_ 99" :uneval :uneval
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" " :whitespace :whitespace
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"," :comma :comma
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"\n" :newline :newline))
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(testing "parsed forms nodes"
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(let [n (p/parse-string-all "(def a 1)")]
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(is (= n (node/coerce n)))
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(is (= :forms (node/tag n)))))
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(testing "map qualifier node"
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(let [n (node/map-qualifier-node false "prefix")]
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(is (= n (node/coerce n)))))
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(testing "nodes that are not parsed, but can be created manually"
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(let [n (node/integer-node 10)]
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(is (= n (node/coerce n))))
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(let [n (node/string-node "my-string")]
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(is (= n (node/coerce n))))))
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