/** * Author: Hans Engel * Branched from CodeMirror's Scheme mode (by Koh Zi Han, based on implementation by Koh Zi Chun) */ CodeMirror.defineMode("clojure", function (config, mode) { var BUILTIN = "builtin", COMMENT = "comment", STRING = "string", TAG = "tag", ATOM = "atom", NUMBER = "number", BRACKET = "bracket", KEYWORD = "keyword"; var INDENT_WORD_SKIP = 2, KEYWORDS_SKIP = 1; function makeKeywords(str) { var obj = {}, words = str.split(" "); for (var i = 0; i < words.length; ++i) obj[words[i]] = true; return obj; } var atoms = makeKeywords("true false nil"); var keywords = makeKeywords( "defn defn- def def- defonce defmulti defmethod defmacro defstruct deftype defprotocol defrecord defproject deftest slice defalias defhinted defmacro- defn-memo defnk defnk defonce- defunbound defunbound- defvar defvar- let letfn do case cond condp for loop recur when when-not when-let when-first if if-let if-not . .. -> ->> doto and or dosync doseq dotimes dorun doall load import unimport ns in-ns refer try catch finally throw with-open with-local-vars binding gen-class gen-and-load-class gen-and-save-class handler-case handle"); var builtins = makeKeywords( "* *1 *2 *3 *agent* *allow-unresolved-vars* *assert *clojure-version* *command-line-args* *compile-files* *compile-path* *e *err* *file* *flush-on-newline* *in* *macro-meta* *math-context* *ns* *out* *print-dup* *print-length* *print-level* *print-meta* *print-readably* *read-eval* *source-path* *use-context-classloader* *warn-on-reflection* + - / < <= = == > >= accessor aclone agent agent-errors aget alength alias all-ns alter alter-meta! alter-var-root amap ancestors and apply areduce array-map aset aset-boolean aset-byte aset-char aset-double aset-float aset-int aset-long aset-short assert assoc assoc! assoc-in associative? atom await await-for await1 bases bean bigdec bigint binding bit-and bit-and-not bit-clear bit-flip bit-not bit-or bit-set bit-shift-left bit-shift-right bit-test bit-xor boolean boolean-array booleans bound-fn bound-fn* butlast byte byte-array bytes case cast char char-array char-escape-string char-name-string char? chars chunk chunk-append chunk-buffer chunk-cons chunk-first chunk-next chunk-rest chunked-seq? class class? clear-agent-errors clojure-version coll? comment commute comp comparator compare compare-and-set! compile complement concat cond condp conj conj! cons constantly construct-proxy contains? count counted? create-ns create-struct cycle dec decimal? declare definline defmacro defmethod defmulti defn defn- defonce defstruct delay delay? deliver deref derive descendants destructure disj disj! dissoc dissoc! distinct distinct? doall doc dorun doseq dosync dotimes doto double double-array doubles drop drop-last drop-while empty empty? ensure enumeration-seq eval even? every? extend extend-protocol extend-type extends? extenders false? ffirst file-seq filter find find-doc find-ns find-var first float float-array float? floats flush fn fn? fnext for force format future future-call future-cancel future-cancelled? future-done? future? gen-class gen-interface gensym get get-in get-method get-proxy-class get-thread-bindings get-validator hash hash-map hash-set identical? identity if-let if-not ifn? import in-ns inc init-proxy instance? int int-array integer? interleave intern interpose into into-array ints io! isa? iterate iterator-seq juxt key keys keyword keyword? last lazy-cat lazy-seq let letfn line-seq list list* list? load load-file load-reader load-string loaded-libs locking long long-array longs loop macroexpand macroexpand-1 make-array make-hierarchy map map? mapcat max max-key memfn memoize merge merge-with meta method-sig methods min min-key mod name namespace neg? newline next nfirst nil? nnext not not-any? not-empty not-every? not= ns ns-aliases ns-imports ns-interns ns-map ns-name ns-publics ns-refers ns-resolve ns-unalias ns-unmap nth nthnext num number? odd? or parents partial partition pcalls peek persistent! pmap pop pop! pop-thread-bindings pos? pr pr-str prefer-method prefers primitives-classnames print print-ctor print-doc print-dup print-method print-namespace-doc print-simple print-special-doc print-str printf println println-str prn prn-str promise proxy proxy-call-with-super proxy-mappings proxy-name proxy-super push-thread-bindings pvalues quot rand rand-int range ratio? rational? rationalize re-find re-groups re-matcher re-matches re-pattern re-seq read read-line read-string reify reduce ref ref-history-count ref-max-history ref-min-history ref-set refer refer-clojure release-pending-sends rem remove remove-method remove-ns repeat repeatedly replace replicate require reset! reset-meta! resolve rest resultset-seq reverse reversible? rseq rsubseq satisfies? second select-keys send send-off seq seq? seque sequence sequential? set set-validator! set? short short-array shorts shutdown-agents slurp some sort sort-by sorted-map sorted-map-by sorted-set sorted-set-by sorted? special-form-anchor special-symbol? split-at split-with str stream? string? struct struct-map subs subseq subvec supers swap! symbol symbol? sync syntax-symbol-anchor take take-last take-nth take-while test the-ns time to-array to-array-2d trampoline transient tree-seq true? type unchecked-add unchecked-dec unchecked-divide unchecked-inc unchecked-multiply unchecked-negate unchecked-remainder unchecked-subtract underive unquote unquote-splicing update-in update-proxy use val vals var-get var-set var? vary-meta vec vector vector? when when-first when-let when-not while with-bindings with-bindings* with-in-str with-loading-context with-local-vars with-meta with-open with-out-str with-precision xml-seq"); var indentKeys = makeKeywords( // Built-ins "ns fn def defn defmethod bound-fn if if-not case condp when while when-not when-first do future comment doto locking proxy with-open with-precision reify deftype defrecord defprotocol extend extend-protocol extend-type try catch " + // Binding forms "let letfn binding loop for doseq dotimes when-let if-let " + // Data structures "defstruct struct-map assoc " + // clojure.test "testing deftest " + // contrib "handler-case handle dotrace deftrace"); var tests = { digit: /\d/, digit_or_colon: /[\d:]/, hex: /[0-9a-fA-F]/, sign: /[+-]/, exponent: /[eE]/, keyword_char: /[^\s\(\[\;\)\]]/, basic: /[\w\$_\-]/, lang_keyword: /[\w*+!\-_?:\/]/ }; function stateStack(indent, type, prev) { // represents a state stack object this.indent = indent; this.type = type; this.prev = prev; } function pushStack(state, indent, type) { state.indentStack = new stateStack(indent, type, state.indentStack); } function popStack(state) { state.indentStack = state.indentStack.prev; } function isNumber(ch, stream){ // hex if ( ch === '0' && 'x' == stream.peek().toLowerCase() ) { stream.eat('x'); stream.eatWhile(tests.hex); return true; } // leading sign if ( ch == '+' || ch == '-' ) { stream.eat(tests.sign); ch = stream.next(); } if ( tests.digit.test(ch) ) { stream.eat(ch); stream.eatWhile(tests.digit); if ( '.' == stream.peek() ) { stream.eat('.'); stream.eatWhile(tests.digit); } if ( 'e' == stream.peek().toLowerCase() ) { stream.eat(tests.exponent); stream.eat(tests.sign); stream.eatWhile(tests.digit); } return true; } return false; } return { startState: function () { return { indentStack: null, indentation: 0, mode: false }; }, token: function (stream, state) { if (state.indentStack == null && stream.sol()) { // update indentation, but only if indentStack is empty state.indentation = stream.indentation(); } // skip spaces if (stream.eatSpace()) { return null; } var returnType = null; switch(state.mode){ case "string": // multi-line string parsing mode var next, escaped = false; while ((next = stream.next()) != null) { if (next == "\"" && !escaped) { state.mode = false; break; } escaped = !escaped && next == "\\"; } returnType = STRING; // continue on in string mode break; default: // default parsing mode var ch = stream.next(); if (ch == "\"") { state.mode = "string"; returnType = STRING; } else if (ch == "'" && !( tests.digit_or_colon.test(stream.peek()) )) { returnType = ATOM; } else if (ch == ";") { // comment stream.skipToEnd(); // rest of the line is a comment returnType = COMMENT; } else if (isNumber(ch,stream)){ returnType = NUMBER; } else if (ch == "(" || ch == "[") { var keyWord = ''; var indentTemp = stream.column(); /** Either (indent-word .. (non-indent-word .. (;something else, bracket, etc. */ if (ch == "(") while ((letter = stream.eat(tests.keyword_char)) != null) { keyWord += letter; } if (keyWord.length > 0 && indentKeys.propertyIsEnumerable(keyWord)) { // indent-word pushStack(state, indentTemp + INDENT_WORD_SKIP, ch); } else { // non-indent word // we continue eating the spaces stream.eatSpace(); if (stream.eol() || stream.peek() == ";") { // nothing significant after // we restart indentation 1 space after pushStack(state, indentTemp + 1, ch); } else { pushStack(state, indentTemp + stream.current().length, ch); // else we match } } stream.backUp(stream.current().length - 1); // undo all the eating returnType = BRACKET; } else if (ch == ")" || ch == "]") { returnType = BRACKET; if (state.indentStack != null && state.indentStack.type == (ch == ")" ? "(" : "[")) { popStack(state); } } else if ( ch == ":" ) { stream.eatWhile(tests.lang_keyword); return ATOM; } else { stream.eatWhile(tests.basic); if (keywords && keywords.propertyIsEnumerable(stream.current())) { returnType = KEYWORD; } else if (builtins && builtins.propertyIsEnumerable(stream.current())) { returnType = BUILTIN; } else if (atoms && atoms.propertyIsEnumerable(stream.current())) { returnType = ATOM; } else returnType = null; } } return returnType; }, indent: function (state, textAfter) { if (state.indentStack == null) return state.indentation; return state.indentStack.indent; } }; }); CodeMirror.defineMIME("text/x-clojure", "clojure");