Coffeescript attempt.

LICENSE

@@ -1,117 +1,22 @@
-CC0 1.0 Universal
+The MIT License (MIT)
 
-Statement of Purpose
+Copyright (c) 2015 Ken "Elf" Mathieu Sternberg
 
-The laws of most jurisdictions throughout the world automatically confer
-exclusive Copyright and Related Rights (defined below) upon the creator and
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+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
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+The above copyright notice and this permission notice shall be included in all
+copies or substantial portions of the Software.
 
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bin/activate

@@ -0,0 +1,8 @@
+#!/bin/bash
+
+# /bin comes before /node_modules/.bin because sometimes I want to
+# override the behaviors provided.
+
+PROJECT_ROOT=`pwd`
+PATH="$PROJECT_ROOT/bin:$PROJECT_ROOT/node_modules/.bin:$PATH"
+export PATH

bin/lisp

@@ -0,0 +1,5 @@
+lisp = require '../lib/lisp'
+fs = require 'fs'
+{inspect} = require 'util'
+
+console.log lisp.run process.argv[2]

package.json

@@ -0,0 +1,26 @@
+{
+  "name": "CoffeeLisp",
+  "version": "0.0.1",
+  "description": "A Coffeescript rendition of Lisp In Small Pieces",
+  "main": "bin/lisp",
+  "dependencies": {
+    "coffee-script": "^1.9.1",
+    "git+https://github.com/elfsternberg/cons-lists.git"
+  },
+  "devDependencies": {
+    "chai": "^2.0.0",
+    "mocha": "^2.1.0"
+  },
+  "scripts": {
+    "test": "echo \"Error: no test specified\" && exit 1"
+  },
+  "keywords": [
+    "scheme",
+    "practice",
+    "interpreter",
+    "javascript",
+    "coffeescript"
+  ],
+  "author": "Elf M. Sternberg",
+  "license": "MIT"
+}

src/eval.coffee

@@ -0,0 +1,17 @@
+lookup = require './lookup'
+{car, cdr, cadr, caadr, cdadr} = require './lists'
+
+lispeval = (element, scope) ->
+
+  switch (car element)
+    when 'number' then parseInt (cadr element), 10
+    when 'string' then (cadr element)
+    when 'symbol' then lookup scope, (cadr element)
+    when 'list'
+      proc = lispeval (caadr element), scope
+      args = cdadr element
+      proc args, scope
+    else throw new Error ("Unrecognized type in parse: #{(car element)}")
+
+module.exports = lispeval
+

src/fn.coffee

@@ -0,0 +1,43 @@
+lispeval = require './eval'
+{cons, nil, nilp, car, cdr, listToVector} = require './lists'
+
+module.exports = 
+  create_vm_expression_evaluator: (defining_scope, params, body) ->
+    (cells, scope) ->
+      args = (amap = (cells, accum) ->
+        return accum if nilp cells
+        amap((cdr cells), accum.concat(lispeval (car cells), scope)))(cells, [])
+      body.apply null, args
+
+  create_lisp_expression_evaluator: (defining_scope, params, body) ->
+    (cells, scope) ->
+
+      # Takes the current scope, which has been passed in during the
+      # execution phase, and evaluate the contents of the parameters
+      # in the context in which this call is made (i.e. when the
+      # function is *called*, rather than defined.
+
+      new_scope = (cmap = (cells, params, nscope) ->
+        return nscope if (nilp cells) or (nilp params)
+        nscope[(car params)] = lispeval (car cells), scope
+        cmap((cdr cells), (cdr params), nscope))(cells, params, {})
+
+      # Execute and evaluate the body, creating an inner scope that
+      # consists of: (1) the bound variables (the parameters)
+      # evaluated in the context of the function call, because that's
+      # where they were encountered (2) the free variables evaluated
+      # in the context of the defining scope, because that's where
+      # *they* were encountered.
+      #
+      # While this inspiration comes from Coglan, the clearest
+      # explanation is from Lisperator's 'make_lambda' paragraph at
+      # http://lisperator.net/pltut/eval1/
+
+      inner_scope = cons(new_scope, defining_scope)
+      (nval = (body, memo) ->
+        return memo if nilp body
+        nval((cdr body), lispeval((car body), inner_scope)))(body)
+
+  create_special_form_evaluator: (defining_scope, params, body) ->
+    (cells, scope) -> body(cells, scope)
+

src/lisp.coffee

@@ -0,0 +1,16 @@
+fs = require 'fs'
+{readForms} = require './reader'
+lispeval = require './eval'
+scope = require './scope'
+{car, cdr, nilp, cadr} = require './lists'
+
+module.exports =
+  run: (pathname) ->
+    text = fs.readFileSync(pathname, 'utf8')
+    ast = readForms(text)
+    (nval = (body, memo) ->
+      return memo if nilp body
+      nval((cdr body), lispeval((car body), scope)))(cadr ast)
+
+
+    

src/lisp_ch1.coffee

@@ -0,0 +1,145 @@
+{listToString, listToVector, pairp, cons, car, cdr, caar, cddr, cdar, cadr, caadr, cadar, caddr, nilp, nil, setcdr, metacadr} = require "./lists"
+readline = require "readline"
+{inspect} = require "util"
+
+env_init = nil
+env_global = env_init
+
+ntype = (node) -> car node
+nvalu = (node) -> cadr node
+
+definitial = (name, value = nil) ->
+  env_global = (cons (cons name, value), env_global)
+  name
+
+defprimitive = (name, value, arity) ->
+  definitial name, ((values) ->
+    vvalues = listToVector(values)
+    if (vvalues.length == arity)
+      return value(vvalues)
+    else
+      throw "Incorrect arity")
+
+the_false_value = (cons "false", "boolean")
+
+definitial "#t", true
+definitial "#f", the_false_value
+definitial "nil", nil
+definitial "foo"
+definitial "bar"
+definitial "fib"
+definitial "fact"
+
+defpredicate = (name, nativ, arity) ->
+  defprimitive name, ((args) -> if (nativ.apply null, args) then true else the_false_value), arity
+
+defprimitive "cons", cons, 2
+defprimitive "car", car, 2
+defprimitive "set-cdr!", setcdr, 2
+defprimitive "+", ((a, b) -> a + b), 2
+defprimitive "*", ((a, b) -> a * b), 2
+defprimitive "-", ((a, b) -> a - b), 2
+defprimitive "/", ((a, b) -> a / b), 2
+defpredicate "lt", ((a, b) -> a < b), 2
+defpredicate "eq?", ((a, b) -> a == b), 2
+
+extend = (env, variables, values) ->
+  if (pairp variables)
+    if (pairp values)
+      (cons (cons (car variables), (car values)),
+        (extend env, (cdr variables), (cdr values)))
+    else
+      throw "Too few values"
+  else if (nilp variables)
+    if (nilp values) then env else throw "Too many values"
+  else
+    if (symbolp variables)
+      (cons (cons variables, values), env)
+
+make_function = (variables, body, env) ->
+  (values) -> eprogn body, (extend env, variables, values)
+
+invoke = (fn, args) ->
+  (fn(args))
+
+# Takes a list of nodes and calls evaluate on each one, returning the
+# last one as the value of the total expression.  In this example, we
+# are hard-coding what ought to be a macro, namely the threading
+# macros, "->"
+
+eprogn = (exps, env) ->
+  if (pairp exps)
+    if pairp (cdr exps)
+      evaluate (car exps), env
+      return eprogn (cdr exps), env
+    return evaluate (car exps), env
+  nil
+
+evlis = (exps, env) ->
+  if (pairp exps)
+    (cons (evaluate (car exps), env), (evlis (cdr exps), env))
+  else
+    nil
+    
+lookup = (id, env) ->
+  if (pairp env)
+    if (caar env) == id
+      cdar env
+    else
+      lookup id, (cdr env)
+  else
+    nil
+
+update = (id, env, value) ->
+  if (pairp env)
+    if (caar env) == id
+      setcdr (car env), value
+      value
+    else
+      update id, (cdr env), value
+  else
+    nil
+
+# This really ought to be the only place where the AST meets the
+# interpreter core.  I can't help but think that this design precludes
+#  pluggable interpreter core.
+
+cadddr = metacadr("cadddr")
+
+astSymbolsToLispSymbols = (node) ->
+  return nil if nilp node
+  throw "Not a list of variable names" if not (ntype(node) is 'list')
+  handler = (node) ->
+    return nil if nilp node
+    cons (nvalu car node), (handler cdr node)
+  handler(nvalu node)
+  
+
+# Takes an AST node and evaluates it and its contents.  A node may be
+# ("list" (... contents ...)) or ("number" 42) or ("symbol" x), etc.
+
+evaluate = (e, env) ->
+  [type, exp] = [(ntype e), (nvalu e)]
+  if type == "symbol"
+    return lookup exp, env
+  if type in ["number", "string", "boolean", "vector"]
+    return exp
+  if type == "list"
+    head = car exp
+    if (ntype head) == 'symbol'
+      return switch (nvalu head)
+        when "quote" then cdr exp
+        when "if"
+          unless (evaluate (cadr exp), env) == the_false_value
+            evaluate (caddr exp), env
+          else
+            evaluate (cadddr exp), env
+        when "begin" then eprogn (cdr exp), env
+        when "set!" then update (nvalu cadr exp), env, (evaluate (caddr exp), env)
+        when "lambda" then make_function (astSymbolsToLispSymbols cadr exp), (cddr exp), env
+        else
+          invoke (evaluate (car exp), env), (evlis (cdr exp), env)
+      return invoke (evaluate (car exp), env), (evlis (cdr exp), env)
+  throw new Error("Can't handle a #{type}")
+
+module.exports = (c) -> evaluate c, env_global

src/lookup.coffee

@@ -0,0 +1,8 @@
+{nilp, car, cdr} = require './lists'
+
+module.exports = lookup = (scopes, name) ->
+  throw new Error "Unknown variable '#{name}'" if nilp scopes
+  scope = car scopes
+  return scope[name] if scope[name]?
+  lookup((cdr scopes), name)
+

src/reader.coffee

@@ -0,0 +1,197 @@
+{car, cdr, cons, nil, nilp, pairp, vectorToList} = require './lists'
+
+NEWLINES   = ["\n", "\r", "\x0B", "\x0C"]
+WHITESPACE = [" ", "\t"].concat(NEWLINES)
+
+EOF = new (class)
+EOO = new (class)
+
+class Source
+  constructor: (@inStream) ->
+    @index = 0
+    @max = @inStream.length - 1
+    @line = 0
+    @column = 0
+
+  peek: -> @inStream[@index]
+
+  position: -> [@line, @column]
+
+  next: ->
+    c = @peek()
+    return EOF if @done()
+    @index++
+    [@line, @column] = if @peek() in NEWLINES then [@line + 1, 0] else [@line, @column + 1]
+    c
+
+  done: -> @index > @max
+
+# IO -> IO
+skipWS = (inStream) -> 
+  while inStream.peek() in WHITESPACE then inStream.next()
+
+# (type, value, line, column) -> (node {type, value, line, column)}
+makeObj = (type, value, line, column) ->
+  cons(type, cons(value, cons(line, cons(column, nil))))
+
+# msg -> (IO -> Node => Error)
+handleError = (message) ->
+  (line, column) -> makeObj('error', message, line, column)
+
+# IO -> Node => Comment
+readComment = (inStream) ->
+  [line, column] = inStream.position()
+  r = (while inStream.peek() != "\n" and not inStream.done()
+    inStream.next()).join("")
+  if not inStream.done()
+    inStream.next()
+  makeObj 'comment', r, line, column
+
+# IO -> (Node => Literal => String) | Error
+readString = (inStream) ->
+  [line, column] = inStream.position()
+  inStream.next()
+  string = until inStream.peek() == '"' or inStream.done()
+    if inStream.peek() == '\\'
+      inStream.next()
+    inStream.next()
+  if inStream.done()
+    return handleError("end of file seen before end of string.")(line, column)
+  inStream.next()
+  makeObj 'string', (string.join ''), line, column
+
+# (String) -> (Node => Literal => Number) | Nothing
+readMaybeNumber = (symbol) ->
+  if symbol[0] == '+'
+    return readMaybeNumber symbol.substr(1)
+  if symbol[0] == '-'
+    ret = readMaybeNumber symbol.substr(1)
+    return if ret? then -1 * ret else undefined
+  if symbol.search(/^0x[0-9a-fA-F]+$/) > -1
+    return parseInt(symbol, 16)
+  if symbol.search(/^0[0-9a-fA-F]+$/) > -1
+    return parseInt(symbol, 8)
+  if symbol.search(/^[0-9]+$/) > -1
+    return parseInt(symbol, 10)
+  if symbol.search(/^nil$/) > -1
+    return nil
+  undefined
+
+# (IO, macros) -> (IO, Node => Number | Symbol) | Error
+readSymbol = (inStream, tableKeys) ->
+  [line, column] = inStream.position()
+  symbol = (until (inStream.done() or inStream.peek() in tableKeys or inStream.peek() in WHITESPACE)
+    inStream.next()).join ''
+  number = readMaybeNumber symbol
+  if number?
+    return makeObj 'number', number, line, column
+  makeObj 'symbol', symbol, line, column
+  
+
+# (Delim, TypeName) -> IO -> (IO, node) | Error
+makeReadPair = (delim, type) ->
+  # IO -> (IO, Node) | Error
+  (inStream) ->
+    inStream.next()
+    skipWS inStream
+    [line, column] = inStream.position()
+    if inStream.peek() == delim
+      inStream.next()
+      return makeObj(type, nil, line, column)
+
+    # IO -> (IO, Node) | Error
+    readEachPair = (inStream) ->
+      [line, column] = inStream.position()
+      obj = read inStream, true, null, true
+      if inStream.peek() == delim then return cons obj, nil
+      if inStream.done() then return handleError("Unexpected end of input")(line, column)
+      return obj if (car obj) == 'error'
+      cons obj, readEachPair(inStream)
+
+    ret = makeObj type, readEachPair(inStream), line, column
+    inStream.next()
+    ret
+
+# Type -> (IO -> (IO, Node))
+prefixReader = (type) ->
+  # IO -> (IO, Node)
+  (inStream) ->
+    [line, column] = inStream.position()
+    inStream.next()
+    [line1, column1] = inStream.position()
+    obj = read inStream, true, null, true
+    return obj if (car obj) == 'error'
+    makeObj "list", cons((makeObj("symbol", type, line1, column1)), cons(obj)), line, column
+
+# I really wanted to make anything more complex than a list (like an
+# object or a vector) something handled by a read macro.  Maybe in a
+# future revision I can vertically de-integrate these.
+
+readMacros =
+  '"': readString
+  '(': makeReadPair ')', 'list'
+  ')': handleError "Closing paren encountered"
+  '[': makeReadPair ']', 'vector'
+  ']': handleError "Closing bracket encountered"
+  '{': makeReadPair('}', 'record', (res) ->
+      res.length % 2 == 0 and true or mkerr "record key without value")
+  '}': handleError "Closing curly without corresponding opening."
+  "`": prefixReader 'back-quote'
+  "'": prefixReader 'quote'
+  ",": prefixReader 'unquote'
+  ";": readComment
+
+
+# Given a stream, reads from the stream until a single complete lisp
+# object has been found and returns the object
+
+# IO -> Form
+read = (inStream, eofErrorP = false, eofError = EOF, recursiveP = false, inReadMacros = null, keepComments = false) ->
+  inStream = if inStream instanceof Source then inStream else new Source inStream
+  inReadMacros = if InReadMacros? then inReadMacros else readMacros
+  inReadMacroKeys = (i for i of inReadMacros)
+
+  c = inStream.peek()
+
+  # (IO, Char) -> (IO, Node) | Error
+  matcher = (inStream, c) ->
+    if inStream.done()
+      return if recursiveP then handleError('EOF while processing nested object')(inStream) else nil
+    if c in WHITESPACE
+      inStream.next()
+      return nil
+    if c == ';'
+      return readComment(inStream)
+    ret = if c in inReadMacroKeys then inReadMacros[c](inStream) else readSymbol(inStream, inReadMacroKeys)
+    skipWS inStream
+    ret
+
+  while true
+    form = matcher inStream, c
+    skip = (not nilp form) and (car form == 'comment') and not keepComments
+    break if (not skip and not nilp form) or inStream.done()
+    c = inStream.peek()
+    null
+  form
+
+# readForms assumes that the string provided contains zero or more
+# forms.  As such, it always returns a list of zero or more forms.
+
+# IO -> (Form* | Error)
+readForms = (inStream) ->
+    inStream = if inStream instanceof Source then inStream else new Source inStream
+    return nil if inStream.done()
+
+    # IO -> (FORM*, IO) | Error
+    [line, column] = inStream.position()
+    readEach = (inStream) ->
+      obj = read inStream, true, null, false
+      return nil if (nilp obj)
+      return obj if (car obj) == 'error'
+      cons obj, readEach inStream
+
+    obj = readEach inStream
+    if (car obj) == 'error' then obj else makeObj "list", obj, line, column
+
+exports.read = read
+exports.readForms = readForms

src/reduce.coffee

@@ -0,0 +1,50 @@
+{car, cdr, cons, pairp, nilp, nil, list, listToString} = require './lists'
+
+reduce = (lst, iteratee, memo, context) ->
+  count = 0
+  ptr = lst
+  while not nilp ptr
+    [item, ptr] = [(car ptr), (cdr ptr)]
+    memo = iteratee.call(context, memo, item, count, lst)
+    count++
+  iteratee.call(context, memo, nil, count, lst)
+
+map = (lst, iteratee, context) ->
+  return nil if nilp lst
+  root = cons("")
+
+  reducer = (memo, item, count) ->
+    next = cons(iteratee.call(context, item, count, lst))
+    memo[1] = next
+    next
+
+  reduce(lst, reducer, root, context)
+  (cdr root)
+
+rmap = (lst, iteratee, context) ->
+  reducer = (memo, item, count) ->
+    cons(iteratee.call(context, item, count, lst), memo)
+  reduce(lst, reducer, nil, context)
+
+
+filter = (lst, iteratee, context) ->
+  return nil if nilp lst
+  root = cons("")
+
+  reducer = (memo, item, count) ->
+    if iteratee.call(context, item, count, lst)
+      next = cons(item)
+      memo[1] = next
+      next
+    else
+      memo
+
+  reduce(lst, reducer, root, context)
+  (cdr root)
+
+module.exports =
+  reduce: reduce
+  map: map
+  rmap: rmap
+  filter: filter
+  

src/scope.coffee

@@ -0,0 +1,31 @@
+lispeval = require './eval'
+{cons, car, cdr, nilp, nil, cadar, cadr, caddr} = require './lists'
+{create_lisp_expression_evaluator, create_vm_expression_evaluator, create_special_form_evaluator} = require './fn'
+
+scope = cons
+  '+': create_vm_expression_evaluator scope, [], (a, b) -> a + b
+  '-': create_vm_expression_evaluator scope, [], (a, b) -> a - b
+  '*': create_vm_expression_evaluator scope, [], (a, b) -> a * b
+  '/': create_vm_expression_evaluator scope, [], (a, b) -> a / b
+  '==': create_vm_expression_evaluator scope, [], (a, b) -> a == b
+  '#t': true
+  '#f': false
+
+  'define': create_special_form_evaluator scope, [], (nodes, scope) ->
+    current = (car scope)
+    current[(cadar nodes)] = lispeval((cadr nodes), scope)
+
+  'lambda': create_special_form_evaluator scope, [], (nodes, scope) ->
+    param_nodes = cadar nodes
+    reducer = (l) ->
+      if (nilp l) then nil else cons (cadar l), reducer(cdr l)
+    param_names = reducer(param_nodes)
+    create_lisp_expression_evaluator scope, param_names, (cdr nodes)
+        
+  'if': create_special_form_evaluator scope, [], (nodes, scope) ->
+    if lispeval (car nodes), scope
+      lispeval (cadr nodes), scope
+    else
+      lispeval (caddr nodes), scope
+
+module.exports = scope

src/test_chap1.coffee

@@ -0,0 +1,5 @@
+lisp = require './lisp_ch1'
+{read, readForms} = require './reader'
+{inspect} = require 'util'
+ast = read("(begin (set! fact (lambda (x) (if (eq? x 0) 1 (* x (fact (- x 1)))))) (fact 5))")
+console.log "Result:",  (lisp ast)