source readline.vim source types.vim source reader.vim source printer.vim source env.vim source core.vim function READ(str) return ReadStr(a:str) endfunction function PairQ(obj) return SequentialQ(a:obj) && !EmptyQ(a:obj) endfunction function Quasiquote(ast) if !PairQ(a:ast) return ListNew([SymbolNew("quote"), a:ast]) endif let a0 = ListFirst(a:ast) if SymbolQ(a0) && a0.val == "unquote" return ListNth(a:ast, 1) elseif PairQ(a0) && SymbolQ(ListFirst(a0)) && ListFirst(a0).val == "splice-unquote" return ListNew([SymbolNew("concat"), ListNth(a0, 1), Quasiquote(ListRest(a:ast))]) else return ListNew([SymbolNew("cons"), Quasiquote(a0), Quasiquote(ListRest(a:ast))]) end endfunction function EvalAst(ast, env) if SymbolQ(a:ast) let varname = a:ast.val return a:env.get(varname) elseif ListQ(a:ast) return ListNew(map(copy(a:ast.val), {_, e -> EVAL(e, a:env)})) elseif VectorQ(a:ast) return VectorNew(map(copy(a:ast.val), {_, e -> EVAL(e, a:env)})) elseif HashQ(a:ast) let ret = {} for [k,v] in items(a:ast.val) let keyobj = HashParseKey(k) let newkey = EVAL(keyobj, a:env) let newval = EVAL(v, a:env) let keystring = HashMakeKey(newkey) let ret[keystring] = newval endfor return HashNew(ret) else return a:ast end endfunction function EVAL(ast, env) let ast = a:ast let env = a:env while 1 if !ListQ(ast) return EvalAst(ast, env) end if EmptyQ(ast) return ast endif let first = ListFirst(ast) let first_symbol = SymbolQ(first) ? first.val : "" if first_symbol == "def!" let a1 = ast.val[1] let a2 = ast.val[2] let ret = env.set(a1.val, EVAL(a2, env)) return ret elseif first_symbol == "let*" let a1 = ast.val[1] let a2 = ast.val[2] let env = NewEnv(env) let let_binds = a1.val let i = 0 while i < len(let_binds) call env.set(let_binds[i].val, EVAL(let_binds[i+1], env)) let i = i + 2 endwhile let ast = a2 " TCO elseif first_symbol == "quote" return ListNth(ast, 1) elseif first_symbol == "quasiquote" let ast = Quasiquote(ListNth(ast, 1)) " TCO elseif first_symbol == "if" let condvalue = EVAL(ast.val[1], env) if FalseQ(condvalue) || NilQ(condvalue) if len(ast.val) < 4 return g:MalNil else let ast = ast.val[3] endif else let ast = ast.val[2] endif " TCO elseif first_symbol == "do" let astlist = ast.val call EvalAst(ListNew(astlist[1:-2]), env) let ast = astlist[-1] " TCO elseif first_symbol == "fn*" let fn = NewFn(ListNth(ast, 2), env, ListNth(ast, 1)) return fn elseif first_symbol == "eval" let ast = EVAL(ListNth(ast, 1), env) let env = env.root() " TCO else " apply list let el = EvalAst(ast, env) let funcobj = ListFirst(el) let args = ListRest(el) if NativeFunctionQ(funcobj) return NativeFuncInvoke(funcobj, args) elseif FunctionQ(funcobj) let fn = funcobj.val let ast = fn.ast let env = NewEnvWithBinds(fn.env, fn.params, args) " TCO else throw "Not a function" endif endif endwhile endfunction function PRINT(exp) return PrStr(a:exp, 1) endfunction function RE(str, env) return EVAL(READ(a:str), a:env) endfunction function REP(str, env) return PRINT(EVAL(READ(a:str), a:env)) endfunction function GetArgvList() return ListNew(map(copy(argv()[1:]), {_, arg -> StringNew(arg)})) endfunction set maxfuncdepth=10000 let repl_env = NewEnv("") for [k, v] in items(CoreNs) call repl_env.set(k, v) endfor call repl_env.set("*ARGV*", GetArgvList()) call RE("(def! not (fn* (a) (if a false true)))", repl_env) call RE("(def! load-file (fn* (f) (eval (read-string (str \"(do \" (slurp f) \"\nnil)\")))))", repl_env) if !empty(argv()) call RE('(load-file "' . argv(0) . '")', repl_env) qall! endif while 1 let [eof, line] = Readline("user> ") if eof break endif if line == "" continue endif try call PrintLn(REP(line, repl_env)) catch call PrintLn("Error: " . v:exception) endtry endwhile qall!