all repos — min @ d0d644faeeecdd1812927dbd61b3061ab3e81187

A small but practical concatenative programming language.

minpkg/lib/min_global.nim

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import
  std/[critbits,
  strutils,
  sequtils,
  json,
  parseopt,
  algorithm,
  streams,
  nre,
  os,
  logging]
import
  minline
import
  ../core/baseutils,
  ../core/niftylogger,
  ../core/env,
  ../core/meta,
  ../core/parser,
  ../core/value,
  ../core/interpreter,
  ../core/utils

proc processTokenValue(v: string, t: MinTokenKind): string =
  case t:
    of tkEof:
      return ""
    of tkString:
      return v.escapeJson
    of tkLineComment:
      return ";$#" % [v]
    of tkLineDocComment:
      return ";;$#" % [v]
    of tkBlockDocComment:
      return "#||$#||#" % [v]
    of tkBlockComment:
      return "#|$#|#" % [v]
    of tkCommand:
      return "[$#]" % [v]
    else:
      return v

proc global_module*(i: In) =
  let def = i.scope

  const HELPFILE = "../../help.json".slurp
  let HELP = HELPFILE.parseJson

  def.symbol("from-json") do (i: In):
    let vals = i.expect("str")
    let s = vals[0]
    i.push i.fromJson(s.getString.parseJson)

  def.symbol("to-json") do (i: In):
    let vals = i.expect "a"
    let q = vals[0]
    i.push(($((i%q).pretty)).newVal)

  # Save/load symbols

  def.symbol("save-symbol") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0]
    let sym = s.getString
    let op = i.scope.getSymbol(sym)
    if op.kind == minProcOp:
      raiseInvalid("Symbol '$1' cannot be serialized." % sym)
    let json = MINSYMBOLS.readFile.parseJson
    json[sym] = i%op.val
    MINSYMBOLS.writeFile(json.pretty)

  def.symbol("load-symbol") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0]
    let sym = s.getString
    let json = MINSYMBOLS.readFile.parseJson
    if not json.hasKey(sym):
      raiseUndefined("Symbol '$1' not found." % sym)
    let val = i.fromJson(json[sym])
    i.scope.symbols[sym] = MinOperator(kind: minValOp, val: val,
        quotation: true)

  def.symbol("saved-symbols") do (i: In):
    var q = newSeq[MinValue](0)
    let json = MINSYMBOLS.readFile.parseJson
    for k, v in json.pairs:
      q.add k.newVal
    i.push q.newVal

  def.symbol("remove-symbol") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0]
    let sym = s.getString
    var json = MINSYMBOLS.readFile.parseJson
    if not json.hasKey(sym):
      raiseUndefined("Symbol '$1' not found." % sym)
    json.delete(sym)
    MINSYMBOLS.writeFile(json.pretty)

  def.symbol("load") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0]
    var file = s.getString
    if not file.endsWith(".min"):
      file = file & ".min"
    info("[load] File: ", file)
    let f = simplifyPath(i.filename, file)
    if MINCOMPILED and COMPILEDMINFILES.hasKey(f):
      var i2 = i.copy(f)
      i2.withScope():
        COMPILEDMINFILES[f](i2)
        i = i2.copy(i.filename)
      return
    else:
      if not f.fileExists:
        raiseInvalid("File '$1' does not exist." % file)
    i.load f

  def.symbol("require") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0]
    var file = s.getString
    var m = s.getString
    if not file.endsWith(".min"):
      file = file & ".min"
    info("[require] File: ", file)
    let lookup = proc (filename: string): string =
      # First check in current folder
      result = simplifyPath(filename, file)
      if result.fileExists:
        return
      # then check for a mmm...
      let localDir = result.parentDir
      # ...locally...
      let localModuleDir = localDir/"mmm"/m
      if localModuleDir.dirExists:
        let versions = localModuleDir.walkDir.toSeq.filterIt(it.kind == pcDir or
            it.kind == pcLinkToDir)
        if versions.len > 0:
          let localModuleVersion = versions[0].path
          result = localModuleVersion/"index.min"
          if result.fileExists:
            return
      # ...and then globally.
      let globalModuleDir = HOME/"mmm"/m
      if globalModuleDir.dirExists:
        let versions = globalModuleDir.walkDir.toSeq.filterIt(it.kind ==
            pcDir or it.kind == pcLinkToDir)
        if versions.len > 0:
          let globalModuleVersion = versions[0].path
          result = globalModuleVersion/"index.min"
          if result.fileExists:
            return
    let f = lookup(i.filename)
    if MINCOMPILED and COMPILEDMINFILES.hasKey(f):
      var i2 = i.copy(f)
      i2.withScope():
        var mdl: MinValue
        if not CACHEDMODULES.hasKey(f):
          COMPILEDMINFILES[f](i2)
          CACHEDMODULES[f] = newDict(i2.scope)
          CACHEDMODULES[f].objType = "module"
        mdl = CACHEDMODULES[f]
        for key, value in i2.scope.symbols.pairs:
          # We need to set the mdl field of minOperators 
          # In case of modules, or internal calls will not work
          var v = value
          v.mdl = mdl
          mdl.scope.symbols[key] = v
        i.push(mdl)
    else:
      if not f.fileExists:
        raiseInvalid("Unable to resolve module '$1'." % m)
      i.push i.require(f)

  def.symbol("raw-args") do (i: In):
    var args = newSeq[MinValue](0)
    for par in commandLineParams():
      args.add par.newVal
    i.push args.newVal

  def.symbol("with") do (i: In):
    let vals = i.expect("dict", "quot")
    var qscope = vals[0]
    var qprog = vals[1]
    i.withDictScope(qscope.scope):
      for v in qprog.qVal:
        i.push v

  def.symbol("publish") do (i: In):
    let vals = i.expect("dict", "'sym")
    let qscope = vals[0]
    let str = vals[1]
    let sym = str.getString
    if qscope.scope.symbols.hasKey(sym) and qscope.scope.symbols[sym].sealed:
      raiseUndefined("Attempting to redefine sealed symbol '$1'" % [sym])
    let scope = i.scope
    info("[publish] Symbol: $2" % [sym])
    let op = proc(i: In) {.closure.} =
      let origscope = i.scope
      i.scope = scope
      i.evaluating = true
      i.pushSym sym
      i.evaluating = false
      i.scope = origscope
    qscope.scope.symbols[sym] = MinOperator(kind: minProcOp, prc: op)

  def.symbol("operator") do (i: In):
    let vals = i.expect("quot");
    let q = vals[0]
    if q.qVal.len != 4:
      raiseInvalid("Invalid operator definition")
    let tv = q.qVal[0]
    let t = tv.symVal
    let nv = q.qVal[1]
    if not tv.isSymbol or (not ["symbol", "sigil", "typeclass",
        "constructor"].contains(t)):
      raiseInvalid("Incorrect operator type specified (it must be 'symbol', 'sigil', 'constructor', or 'typeclass' - found '$#')" % tv.symVal)
    if not nv.isSymbol:
      raiseInvalid("Operator name must be a symbol")
    var n = nv.symVal
    if not n.contains(re(USER_SYMBOL_REGEX)):
      raiseInvalid("Operator name must not contain invalid characters")
    if t == "typeclass":
      n = "typeclass:"&n
    # Validate signature
    let sv = q.qVal[2]
    if not sv.isQuotation:
      raiseInvalid("Signature must be a quotation")
    elif sv.qVal.len == 0:
      raiseInvalid("No signature specified")
    elif sv.qVal.len == 1 and sv.qVal[0] != "==>".newSym:
      raiseInvalid("Invalid signature")
    elif sv.qVal.len mod 2 == 0:
      raiseInvalid("Invalid signature")
    var c = 0
    # Process signature
    let docSig = $sv
    var inExpects = newSeq[string](0)
    var inVars = newSeq[string](0)
    var outExpects = newSeq[string](0)
    var outVars = newSeq[string](0)
    var rawOutVars = newSeq[string](0)
    var generics: CritBitTree[string]
    var origGenerics: CritBitTree[string]
    var o = false
    for vv in sv.qVal:
      if not vv.isSymbol and not vv.isQuotation:
        raiseInvalid("Signature must be a quotation of symbols/quotations")
      var v: string
      var check = c mod 2 == 0
      if o:
        check = c mod 2 != 0
      if vv.isQuotation:
        if vv.qVal.len != 2 or not vv.qVal[0].isSymbol or not vv.qVal[1].isSymbol:
          raiseInvalid("Generic quotation must contain exactly two symbols")
        let t = vv.qVal[0].getString
        let g = vv.qVal[1].getString
        if not i.validType(t):
          raiseInvalid("Invalid type '$#' in generic in signature at position $#" %
              [$t, $(c+1)])
        if g[0] != ':' and g[0] != '^':
          raiseInvalid("No mapping symbol specified in generic in signature at position $#" %
              $(c+1))
        v = g[1..g.len-1]
        generics[v] = t
      else:
        v = vv.symVal
      if check:
        if v == "==>":
          o = true
        elif not i.validType(v) and not generics.hasKey(v):
          raiseInvalid("Invalid type '$#' specified in signature at position $#" %
              [v, $(c+1)])
        else:
          if o:
            if tv.symVal == "typeclass" and (outExpects.len > 0 or v != "bool"):
              raiseInvalid("typeclasses can only have one boolean output value")
            if tv.symVal == "constructor" and (outExpects.len > 0 or v != "dict"):
              raiseInvalid("constructors can only have one dictionary output value")
            outExpects.add v
          else:
            if tv.symVal == "typeclass" and inExpects.len > 0:
              raiseInvalid("typeclasses can only have one input value")
            inExpects.add v
      else:
        if v[0] != ':' and v[0] != '^':
          raiseInvalid("No capturing symbol specified in signature at position $#" %
              $(c+1))
        else:
          if o:
            if v[0] == '^' and outExpects[outExpects.len-1] != "quot":
              raiseInvalid("Only quotations can be captured to a lambda, found $# instead at position $#" %
                  [outExpects[outExpects.len-1], $(c+1)])
            rawOutVars.add v
            outVars.add v[1..v.len-1]
          else:
            if v[0] == '^':
              raiseInvalid("A lambda capturing symbol was specified in signature at position $#. Lambda capturing symbols are only allowed for output values" %
                  $(c+1))
            inVars.add v[1..v.len-1]
      c.inc()
    if not o:
      raiseInvalid("No output specified in signature")
    origGenerics = deepCopy(generics)
    # Process body
    var bv = q.qVal[3]
    if not bv.isQuotation:
      raiseInvalid("Body must be a quotation")
    inExpects.reverse
    inVars.reverse
    var p: MinOperatorProc = proc (i: In) =
      var inVals: seq[MinValue]
      try:
        inVals = i.expect(inExpects, generics)
      except CatchableError:
        generics = origGenerics
        raise
      i.withScope():
        # Inject variables for mapped inputs
        for k in 0..inVars.len-1:
          var iv = inVals[k]
          if iv.isQuotation:
            iv = @[iv].newVal
          i.scope.symbols[inVars[k]] = MinOperator(kind: minValOp,
              sealed: false, val: iv, quotation: inVals[k].isQuotation)
        # Inject variables for mapped outputs
        for k in 0..outVars.len-1:
          i.scope.symbols[outVars[k]] = MinOperator(kind: minValOp,
              sealed: false, val: @[newNull()].newVal, quotation: true)
        # Actually execute the body of the operator
        if DEV:
          var endSnapshot: seq[MinValue]
          var snapShot: seq[MinValue]
          try:
            snapshot = deepCopy(i.stack)
            i.dequote bv
            endSnapshot = i.stack
            let d = snapshot.diff(endSnapshot)
            if d.len > 0:
              raiseInvalid("Operator '$#' is polluting the stack -- $#" % [n, $d.newVal])
          except MinReturnException:
            discard
        else:
          try:
            i.dequote bv
          except MinReturnException:
            discard
        # Validate output
        for k in 0..outVars.len-1:
          var x = i.scope.symbols[outVars[k]].val
          if rawOutVars[k][0] == ':':
            x = x.qVal[0]
          if t == "constructor":
            x.objType = n
          if DEV:
            let o = outExpects[k]
            var r = false;
            if o.contains("|"):
              let types = o.split("|")
              for ut in types:
                if i.validate(x, ut, generics):
                  r = true
                  break
            else:
              r = i.validate(x, o, generics)
            if not r:
              var tp = o
              if generics.hasKey(o):
                tp = generics[o]
                generics = origGenerics
              raiseInvalid("Invalid value for output symbol '$#'. Expected $#, found $#" %
                  [outVars[k], tp, $x])
          # Push output on stack
          i.pushSym outVars[k]
      generics = origGenerics
    # Define symbol/sigil
    var doc = newJObject()
    doc["name"] = %n
    doc["kind"] = %t
    doc["signature"] = %docSig
    doc["description"] = %i.currSym.docComment.strip
    if ["symbol", "typeclass", "constructor"].contains(t):
      if i.scope.symbols.hasKey(n) and i.scope.symbols[n].sealed:
        raiseUndefined("Attempting to redefine sealed symbol '$1'" % [n])
      i.scope.symbols[n] = MinOperator(kind: minProcOp, prc: p, sealed: false, doc: doc)
    else:
      if i.scope.sigils.hasKey(n) and i.scope.sigils[n].sealed:
        raiseUndefined("Attempting to redefine sealed sigil '$1'" % [n])
      i.scope.sigils[n] = MinOperator(kind: minProcOp, prc: p, sealed: true, doc: doc)

  def.symbol("expect-empty-stack") do (i: In):
    let l = i.stack.len
    if l != 0:
      raiseInvalid("Expected empty stack, found $# elements instead" % $l)

  def.symbol("exit") do (i: In):
    let vals = i.expect("int")
    quit(vals[0].intVal.int)

  def.symbol("puts") do (i: In):
    let a = i.peek
    echo $$a

  def.symbol("gets") do (i: In):
    var ed = initEditor()
    i.push ed.readLine().newVal

  def.symbol("apply") do (i: In):
    let vals = i.expect("quot")
    var prog = vals[0]
    i.apply prog

  def.symbol("symbols") do (i: In):
    var q = newSeq[MinValue](0)
    var scope = i.scope
    while not scope.isNil:
      for s in scope.symbols.keys:
        q.add s.newVal
      scope = scope.parent
    i.push q.newVal

  def.symbol("defined-symbol?") do (i: In):
    let vals = i.expect("'sym")
    i.push((not i.scope.getSymbol(vals[0].getString).isNull).newVal)

  def.symbol("defined-sigil?") do (i: In):
    let vals = i.expect("'sym")
    i.push(i.scope.hasSigil(vals[0].getString).newVal)

  def.symbol("sealed-symbol?") do (i: In):
    let vals = i.expect("'sym")
    i.push i.scope.getSymbol(vals[0].getString).sealed.newVal

  def.symbol("sealed-sigil?") do (i: In):
    let vals = i.expect("'sym")
    i.push i.scope.getSigil(vals[0].getString).sealed.newVal

  def.symbol("sigils") do (i: In):
    var q = newSeq[MinValue](0)
    var scope = i.scope
    while not scope.isNil:
      for s in scope.sigils.keys:
        q.add s.newVal
      scope = scope.parent
    i.push q.newVal

  def.symbol("scope-symbols") do (i: In):
    let vals = i.expect("dict")
    let m = vals[0]
    var q = newSeq[MinValue](0)
    for s in m.scope.symbols.keys:
      q.add s.newVal
    i.push q.newVal

  def.symbol("scope-sigils") do (i: In):
    let vals = i.expect("dict")
    let m = vals[0]
    var q = newSeq[MinValue](0)
    for s in m.scope.sigils.keys:
      q.add s.newVal
    i.push q.newVal

  def.symbol("from-yaml") do (i: In):
    let vals = i.expect("str")
    let s = vals[0]
    try:
      var dict = newDict(i.scope)
      let lines = s.strVal.split("\n")
      for line in lines:
        let pair = line.split(":")
        if pair.len == 1 and pair[0].len == 0:
          continue
        i.dset(dict, pair[0].strip, pair[1].strip.newVal)
      i.push(dict)
    except CatchableError:
      raiseInvalid("Invalid/unsupported YAML object (only dictionaries with string values are supported)")

  def.symbol("to-yaml") do (i: In):
    let vals = i.expect "a"
    let a = vals[0]
    let err = "YAML conversion is only supported from dictionaries with string values"
    if a.kind != minDictionary:
      raiseInvalid(err)
    var yaml = ""
    try:
      for key in i.keys(a).qVal:
        let value = i.dget(a, key)
        if value.kind != minString:
          raiseInvalid(err)
        yaml &= "$1: $2\n" % [key.strVal, value.strVal]
      i.push(yaml.strip.newVal)
    except CatchableError:
      raiseInvalid(err)

  def.symbol("loglevel") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0]
    var str = s.getString
    echo "Log level: ", niftylogger.setLogLevel(str)

  def.symbol("loglevel?") do (i: In):
    i.push niftylogger.getLogLevel().newVal

  # Language constructs

  def.symbol("define") do (i: In):
    let vals = i.expect("'sym", "a")
    let sym = vals[0]
    var q1 = vals[1] # existing (auto-quoted)
    var symbol: string
    q1 = @[q1].newVal
    symbol = sym.getString
    if not symbol.contains re(USER_PATH_SYMBOL_REGEX):
      raiseInvalid("Symbol identifier '$1' contains invalid characters." % symbol)
    info "[define] $1 = $2" % [symbol, $q1]
    i.scope.setSymbol(symbol, MinOperator(kind: minValOp, val: q1,
        sealed: false, quotation: q1.isQuotation), false, true)

  def.symbol("typealias") do (i: In):
    let vals = i.expect("'sym", "'sym")
    let sym = vals[0].getString
    var s = vals[1].getString
    if not i.validType(s):
      raiseInvalid("Invalid type expression: $#" % s)
    let symbol = "typealias:"&sym
    if not sym.contains re(USER_SYMBOL_REGEX):
      raiseInvalid("Symbol identifier '$1' contains invalid characters." % sym)
    info "[typealias] $1 = $2" % [sym, s]
    if i.scope.symbols.hasKey(symbol) and i.scope.symbols[symbol].sealed:
      raiseUndefined("Attempting to redefine sealed symbol '$1'" % [symbol])
    i.scope.symbols[symbol] = MinOperator(kind: minValOp, val: s.newVal,
        sealed: false, quotation: false)

  def.symbol("lambda") do (i: In):
    let vals = i.expect("'sym", "quot")
    let sym = vals[0]
    var q1 = vals[1]
    var symbol: string
    symbol = sym.getString
    if not symbol.contains re(USER_SYMBOL_REGEX):
      raiseInvalid("Symbol identifier '$1' contains invalid characters." % symbol)
    info "[lambda] $1 = $2" % [symbol, $q1]
    if i.scope.symbols.hasKey(symbol) and i.scope.symbols[symbol].sealed:
      raiseUndefined("Attempting to redefine sealed symbol '$1'" % [symbol])
    i.scope.symbols[symbol] = MinOperator(kind: minValOp, val: q1,
        sealed: false, quotation: true)

  def.symbol("bind") do (i: In):
    let vals = i.expect("'sym", "a")
    let sym = vals[0]
    var q1 = vals[1] # existing (auto-quoted)
    var symbol: string
    var isQuot = q1.isQuotation
    q1 = @[q1].newVal
    symbol = sym.getString
    info "[bind] $1 = $2" % [symbol, $q1]
    let res = i.scope.setSymbol(symbol, MinOperator(kind: minValOp, val: q1,
        quotation: isQuot))
    if not res:
      raiseUndefined("Attempting to bind undefined symbol: " & symbol)

  def.symbol("lambda-bind") do (i: In):
    let vals = i.expect("'sym", "quot")
    let sym = vals[0]
    var q1 = vals[1]
    var symbol: string
    symbol = sym.getString
    info "[lambda-bind] $1 = $2" % [symbol, $q1]
    let res = i.scope.setSymbol(symbol, MinOperator(kind: minValOp, val: q1,
        quotation: true))
    if not res:
      raiseUndefined("Attempting to lambda-bind undefined symbol: " & symbol)

  def.symbol("delete-symbol") do (i: In):
    let vals = i.expect("'sym")
    let sym = vals[0]
    let res = i.scope.delSymbol(sym.getString)
    if not res:
      raiseUndefined("Attempting to delete undefined symbol: " & sym.getString)

  def.symbol("delete-sigil") do (i: In):
    let vals = i.expect("'sym")
    let sym = vals[0]
    let res = i.scope.delSigil(sym.getString)
    if not res:
      raiseUndefined("Attempting to delete undefined sigil: " & sym.getString)

  def.symbol("scope") do (i: In):
    var dict = newDict(i.scope.parent)
    dict.objType = "module"
    dict.filename = i.filename
    dict.scope = i.scope
    i.push dict

  def.symbol("parent-scope") do (i: In):
    let vals = i.expect("dict")
    let d = vals[0]
    if d.scope.parent.isNil:
      i.push newNull()
      return
    var dict = newDict(d.scope.parent)
    dict.objType = "module"
    dict.filename = i.filename
    dict.scope = d.scope.parent
    i.push dict

  def.symbol("type") do (i: In):
    let vals = i.expect("a")
    i.push vals[0].typeName.newVal

  def.symbol("symbol-help") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0].getString
    let sym = i.scope.getSymbol(s) 
    if not sym.isNull:
      if not sym.doc.isNil and sym.doc.kind == JObject:
        var doc = i.fromJson(sym.doc)
        doc.objType = "help"
        i.push doc
        return
      elif HELP["symbols"].hasKey(s):
        var doc = i.fromJson(HELP["symbols"][s])
        doc.objType = "help"
        i.push doc
        return
    i.push nil.newVal

  def.symbol("sigil-help") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0].getString
    if i.scope.hasSigil(s):
      let sym = i.scope.getSigil(s)
      if not sym.doc.isNil and sym.doc.kind == JObject:
        var doc = i.fromJson(sym.doc)
        doc.objType = "help"
        i.push doc
        return
      elif HELP["symbols"].hasKey(s):
        var doc = i.fromJson(HELP["symbols"][s])
        doc.objType = "help"
        i.push doc
        return
    i.push nil.newVal

  def.symbol("help") do (i: In):
    if i.stack.len == 0 or not i.stack[i.stack.len-1].isStringLike:
      warn "Specify a quoted symbol or string to show its help documentation, e.g. 'puts help"
      return
    var s = i.pop.getString
    var found = false
    var foundDoc = false
    let displayDoc = proc (j: JsonNode) =
      if j.hasKey("module"):
        echo "=== $#.$# [$#]" % [j["module"].getStr, j["name"].getStr, j["kind"].getStr]
      else:
        echo "=== $# [$#]" % [j["name"].getStr, j["kind"].getStr]
      if j.hasKey("signature"):
        echo j["signature"].getStr
      if j.hasKey("description"):
        let desc = j["description"].getStr
        if desc.len != 0:
          let lines = desc.split("\n")
          echo ""
          for l in lines:
            echo "  " & l
      echo "==="
    let sym = i.scope.getSymbol(s)
    if not sym.isNull:
      found = true
      if not sym.doc.isNil and sym.doc.kind == JObject:
        foundDoc = true
        displayDoc(sym.doc)
        return
      var mdl = ""
      if s.contains('.'):
        let parts = s.split(".")
        mdl = parts[0]
        s = parts[1]
      if HELP["symbols"].hasKey(s) and (mdl == "" or mdl == HELP["symbols"][
          s]["module"].getStr):
        foundDoc = true
        displayDoc HELP["symbols"][s]
    if i.scope.hasSigil(s):
      found = true
      let sym = i.scope.getSigil(s)
      if not sym.doc.isNil and sym.doc.kind == JObject:
        foundDoc = true
        displayDoc(sym.doc)
      elif HELP["sigils"].hasKey(s):
        foundDoc = true
        displayDoc HELP["sigils"][s]
    if not found:
      warn "Undefined symbol or sigil: $#" % s
    elif not foundDoc:
      warn "No documentation found for symbol or sigil: $#" % s

  def.symbol("import") do (i: In):
    var vals = i.expect("'sym")
    let rawName = vals[0]
    var name: string
    name = rawName.getString
    var op = i.scope.getSymbol(name)
    i.apply(op)
    vals = i.expect("dict:module")
    let mdl = vals[0]
    info("[import] Importing: $1 ($2 symbols, $3 sigils)" % [name,
        $mdl.scope.symbols.len, $mdl.scope.sigils.len])
    for sym, val in mdl.scope.symbols.pairs:
      if i.scope.symbols.hasKey(sym) and i.scope.symbols[sym].sealed:
        raiseUndefined("Attempting to redefine sealed symbol '$1'" % [sym])
      i.debug "[import] $1" % [sym]
      i.scope.symbols[sym] = val
    for sig, val in mdl.scope.sigils.pairs:
      if i.scope.sigils.hasKey(sig) and i.scope.sigils[sig].sealed:
        raiseUndefined("Attempting to redefine sealed sigil '$1'" % [sig])
      i.debug "[import] $1" % [sig]
      i.scope.sigils[sig] = val

  def.symbol("eval") do (i: In):
    let vals = i.expect("str")
    let s = vals[0]
    i.eval s.strVal

  def.symbol("quit") do (i: In):
    i.push 0.newVal
    i.pushSym "exit"

  def.symbol("parse") do (i: In):
    let vals = i.expect("str")
    let s = vals[0]
    i.push i.parse s.strVal

  def.symbol("source") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0]
    let str = s.getString
    let sym = i.scope.getSymbol(str)
    if sym.kind == minValOp:
      i.push sym.val
    else:
      raiseInvalid("Unable to display source: '$1' is an operator." % str)

  def.symbol("invoke") do (i: In):
    let vals = i.expect("'sym")
    let s = vals[0].getString
    let parts = s.split("/")
    if parts.len < 2:
      raiseInvalid("Dictionary identifier not specified")
    i.pushSym parts[0]
    for p in 0..parts.len-2:
      let vals = i.expect("dict")
      let mdl = vals[0]
      let symId = parts[p+1]
      let origScope = i.scope
      i.scope = mdl.scope
      if not i.scope.parent.isNil:
        i.scope.parent = origScope
      let sym = i.scope.getSymbol(symId)
      i.apply(sym)
      i.scope = origScope

  def.symbol("raise") do (i: In):
    let vals = i.expect("dict")
    let err = vals[0]
    if err.dhas("error".newVal) and err.dhas("message".newVal):
      raiseRuntime("($1) $2" % [i.dget(err, "error".newVal).getString, i.dget(
          err, "message").getString], err)
    else:
      raiseInvalid("Invalid error dictionary")

  def.symbol("format-error") do (i: In):
    let vals = i.expect("dict:error")
    let err = vals[0]
    if err.dhas("error".newVal) and err.dhas("message".newVal):
      var msg: string
      var list = newSeq[MinValue]()
      list.add i.dget(err, "message")
      if err.dhas("symbol"):
        list.add i.dget(err, "symbol")
      if err.dhas("filename"):
        list.add i.dget(err, "filename")
      if err.dhas("line"):
        list.add i.dget(err, "line")
      if err.dhas("column"):
        list.add i.dget(err, "column")
      if list.len <= 3:
        msg = "$1" % $$list[0]
      else:
        msg = "$3($4,$5) `$2`: $1" % [$$list[0], $$list[1], $$list[2], $$list[
            3], $$list[4]]
      i.push msg.newVal
    else:
      raiseInvalid("Invalid error dictionary")

  def.symbol("try") do (i: In):
    let vals = i.expect("quot")
    let prog = vals[0]
    if prog.qVal.len == 0:
      raiseInvalid("Quotation must contain at least one element")
    var code = prog.qVal[0]
    var final, catch: MinValue
    var hasFinally = false
    var hasCatch = false
    if prog.qVal.len > 1:
      catch = prog.qVal[1]
      hasCatch = true
    if prog.qVal.len > 2:
      final = prog.qVal[2]
      hasFinally = true
    if (not code.isQuotation) or (hasCatch and not catch.isQuotation) or (
        hasFinally and not final.isQuotation):
      raiseInvalid("Quotation must contain at least one quotation")
    try:
      i.dequote(code)
    except MinRuntimeError:
      if not hasCatch:
        return
      let e = (MinRuntimeError)getCurrentException()
      i.push e.data
      i.dequote(catch)
    except CatchableError:
      if not hasCatch:
        return
      let e = getCurrentException()
      var res = newDict(i.scope)
      var err = $e.name
      let col = err.find(":")
      if col >= 0:
        err = err[0..col-1]
      res.objType = "error"
      i.dset(res, "error", err.newVal)
      i.dset(res, "message", e.msg.newVal)
      if i.currSym.getString != "": # TODO investigate when this happens
        i.dset(res, "symbol", i.currSym)
        i.dset(res, "filename", i.currSym.filename.newVal)
      i.dset(res, "line", i.currSym.line.newVal)
      i.dset(res, "column", i.currSym.column.newVal)
      i.push res
      i.dequote(catch)
    finally:
      if hasFinally:
        i.dequote(final)

  def.symbol("quote") do (i: In):
    let vals = i.expect("a")
    let a = vals[0]
    i.push @[a].newVal

  def.symbol("dequote") do (i: In):
    let vals = i.expect("quot")
    var q = vals[0]
    i.dequote(q)

  def.symbol("tap") do (i: In):
    let vals = i.expect("quot", "a")
    let programs = vals[0]
    var a = vals[1]
    for program in programs.qVal:
      var p = program
      i.push(a)
      i.dequote(p)
      a = i.pop
    i.push(a)

  # Conditionals

  def.symbol("if") do (i: In):
    let vals = i.expect("quot", "quot", "quot")
    var fpath = vals[0]
    var tpath = vals[1]
    var check = vals[2]
    var stack = i.stack
    i.dequote(check)
    let res = i.pop
    i.stack = stack
    if not res.isBool:
      raiseInvalid("Result of check is not a boolean value")
    if res.boolVal == true:
      i.dequote(tpath)
    else:
      i.dequote(fpath)

  def.symbol("when") do (i: In):
    let vals = i.expect("quot", "quot")
    var tpath = vals[0]
    var check = vals[1]
    var stack = i.stack
    i.dequote(check)
    let res = i.pop
    i.stack = stack
    if not res.isBool:
      raiseInvalid("Result of check is not a boolean value")
    if res.boolVal == true:
      i.dequote(tpath)

  def.symbol("unless") do (i: In):
    let vals = i.expect("quot", "quot")
    var tpath = vals[0]
    var check = vals[1]
    var stack = i.stack
    i.dequote(check)
    let res = i.pop
    i.stack = stack
    if not res.isBool:
      raiseInvalid("Result of check is not a boolean value")
    if res.boolVal == false:
      i.dequote(tpath)

  # 4 (
  #   ((> 3) ("Greater than 3" put!))
  #   ((< 3) ("Smaller than 3" put!))
  #   ((true) ("Exactly 3" put!))
  # ) case
  def.symbol("case") do (i: In):
    let vals = i.expect("quot")
    var cases = vals[0]
    if cases.qVal.len == 0:
      raiseInvalid("Empty case operator")
    var k = 0
    let stack = i.stack
    for c in cases.qVal:
      i.stack = stack
      if not c.isQuotation:
        raiseInvalid("A quotation of quotations is required")
      k.inc
      if c.qVal.len != 2 or not c.qVal[0].isQuotation or not c.qVal[1].isQuotation:
        raiseInvalid("Inner quotations in case operator must contain two quotations")
      var q = c.qVal[0]
      i.dequote(q)
      let res = i.pop
      if not res.isBool():
        raiseInvalid("Result of case #$1 is not a boolean value" % $k)
      if res.boolVal == true:
        var t = c.qVal[1]
        i.dequote(t)
        break

  # Loops

  def.symbol("foreach") do (i: In):
    let vals = i.expect("quot", "quot")
    var prog = vals[0]
    var list = vals[1]
    for litem in list.qVal:
      i.push litem
      i.dequote(prog)

  def.symbol("times") do (i: In):
    let vals = i.expect("int", "quot")
    var t = vals[0].intVal
    var prog = vals[1]
    if t > 0:
      for c in 1..t:
        i.dequote(prog)

  def.symbol("while") do (i: In):
    let vals = i.expect("quot", "quot")
    var d = vals[0]
    var b = vals[1]
    i.dequote(b)
    var check = i.pop
    while check.boolVal == true:
      i.dequote(d)
      i.dequote(b)
      check = i.pop

  # Other

  def.symbol("linrec") do (i: In):
    let vals = i.expect("quot", "quot", "quot", "quot")
    var r2 = vals[0]
    var r1 = vals[1]
    var t = vals[2]
    var p = vals[3]
    proc linrec(i: In, p, t, r1, r2: var MinValue) =
      i.dequote(p)
      var check = i.pop
      if check.isBool and check.boolVal == true:
        i.dequote(t)
      else:
        i.dequote(r1)
        i.linrec(p, t, r1, r2)
        i.dequote(r2)
    i.linrec(p, t, r1, r2)

  def.symbol("version") do (i: In):
    i.push pkgVersion.newVal

  def.symbol("seal-symbol") do (i: In):
    let vals = i.expect("'sym")
    let sym = vals[0].getString
    var s = i.scope.getSymbol(sym)
    s.sealed = true
    i.scope.setSymbol(sym, s, true)

  def.symbol("seal-sigil") do (i: In):
    let vals = i.expect("'sym")
    let sym = vals[0].getString
    var s = i.scope.getSigil(sym)
    s.sealed = true
    i.scope.setSigil(sym, s, true)

  def.symbol("unseal-symbol") do (i: In):
    let vals = i.expect("'sym")
    let sym = vals[0].getString
    var s = i.scope.getSymbol(sym)
    s.sealed = false
    i.scope.setSymbol(sym, s, true)

  def.symbol("unseal-sigil") do (i: In):
    let vals = i.expect("'sym")
    let sym = vals[0].getString
    var s = i.scope.getSigil(sym)
    if not sym.contains re(USER_SYMBOL_REGEX):
      # Prevent accidentally unsealing system sigils
      # Not that they can redefined, but still
      raiseInvalid("Attempting to unseal system sigil: " & sym)
    s.sealed = false
    i.scope.setSigil(sym, s, true)

  def.symbol("args") do (i: In):
    var args = newSeq[MinValue](0)
    for kind, key, val in getopt():
      case kind:
        of cmdArgument:
          args.add key.newVal
        else:
          discard
    i.push args.newVal

  def.symbol("opts") do (i: In):
    var opts = newDict(i.scope)
    for kind, key, val in getopt():
      case kind:
        of cmdLongOption, cmdShortOption:
          if val == "":
            opts = i.dset(opts, key.newVal, true.newVal)
          else:
            opts = i.dset(opts, key.newVal, val.newVal)
        else:
          discard
    i.push opts

  def.symbol("expect") do (i: In):
    var q: MinValue
    i.reqQuotationOfSymbols q
    i.push(i.expect(q.qVal.mapIt(it.getString())).reversed.newVal)

  def.symbol("infix-dequote") do (i: In):
    let vals = i.expect("quot")
    let q = vals[0]
    proc infix(i: In, q: MinValue): MinValue =
      var ops = newSeq[MinValue](0)
      var res = newSeq[MinValue](0).newVal
      for x in q.qVal:
        if x.isSymbol:
          ops.add x
        else:
          if x.isQuotation:
            res.qVal.add i.infix(x)
          else:
            res.qVal.add x
          if ops.len > 0:
            res.qVal.add ops.pop
            i.dequote(res)
            res = newSeq[MinValue](0).newVal
      return i.pop
    i.push i.infix(q)

  def.symbol("prefix-dequote") do (i: In):
    let vals = i.expect("quot")
    var q = vals[0]
    q.qVal.reverse
    i.dequote(q)

  def.symbol("compiled?") do (i: In):
    i.push MINCOMPILED.newVal

  def.symbol("dev") do (i: In):
    DEV = not DEV
    notice "Development Mode: ", DEV

  def.symbol("dev?") do (i: In):
    i.push DEV.newVal

  def.symbol("line-info") do (i: In):
    var d = newDict(i.scope)
    i.dset(d, "filename", i.currSym.filename.newVal)
    i.dset(d, "line", i.currSym.line.newVal)
    i.dset(d, "column", i.currSym.column.newVal)
    i.push d

  # Converters

  def.symbol("string") do (i: In):
    let s = i.pop
    i.push(($$s).newVal)

  def.symbol("boolean") do (i: In):
    let v = i.pop
    let strcheck = (v.isString and (v.getString == "false" or v.getString == ""))
    let intcheck = v.isInt and v.intVal == 0
    let floatcheck = v.isFloat and v.floatVal == 0
    let boolcheck = v.isBool and v.boolVal == false
    let quotcheck = v.isQuotation and v.qVal.len == 0
    if v.isNull or strcheck or intcheck or floatcheck or boolcheck or quotcheck:
      i.push false.newVal
    else:
      i.push true.newVal

  def.symbol("integer") do (i: In):
    let s = i.pop
    if s.isString:
      i.push s.getString.parseInt.newVal
    elif s.isNull:
      i.push 0.int.newVal
    elif s.isFloat:
      i.push s.floatVal.int.newVal
    elif s.isInt:
      i.push s
    elif s.isBool:
      if s.boolVal == true:
        i.push 1.int.newVal
      else:
        i.push 0.int.newVal
    else:
      raiseInvalid("Cannot convert a quotation to an integer.")

  def.symbol("float") do (i: In):
    let s = i.pop
    if s.isString:
      i.push s.getString.parseFloat.newVal
    elif s.isNull:
      i.push 0.int.newVal
    elif s.isInt:
      i.push s.intVal.float.newVal
    elif s.isFloat:
      i.push s
    elif s.isBool:
      if s.boolVal == true:
        i.push 1.float.newVal
      else:
        i.push 0.float.newVal
    else:
      raiseInvalid("Cannot convert a quotation to float.")

  def.symbol("prompt") do (i: In):
    i.eval(""""[$1]\n$$ " (pwd) => %""")

  def.symbol("quotesym") do (i: In):
    let vals = i.expect("str")
    let s = vals[0]
    i.push(@[i.newSym(s.strVal)].newVal)

  def.symbol("quotecmd") do (i: In):
    let vals = i.expect("str")
    let s = vals[0]
    i.push(@[newCmd(s.strVal)].newVal)

  def.symbol("tokenize") do (i: In):
    let vals = i.expect("str")
    let s = vals[0].getString
    var i2 = i.copy("string")
    i2.open(newStringStream(s), "string")
    var p = i2.parser
    var t = p.getToken()
    var q = newSeq[MinValue](0)
    var dict = newDict(i.scope)
    i.dset(dict, "type", newVal($t))
    i.dset(dict, "value", p.a.processTokenValue(t).newVal)
    q.add dict
    while t != tkEof:
      t = p.getToken()
      var dict = newDict(i.scope)
      i.dset(dict, "type", newVal($t))
      i.dset(dict, "value", p.a.processTokenValue(t).newVal)
      q.add dict
    i.push q.newVal

  def.symbol("get-env") do (i: In):
    let vals = i.expect("'sym")
    let a = vals[0]
    i.push a.getString.getEnv.newVal

  def.symbol("put-env") do (i: In):
    let vals = i.expect("'sym", "'sym")
    let key = vals[0]
    let value = vals[1]
    key.getString.putEnv value.getString

  def.symbol("$") do (i: In):
    i.pushSym("get-env")

  # Sigils

  def.sigil("'") do (i: In):
    i.pushSym("quotesym")

  def.sigil(":") do (i: In):
    i.pushSym("define")

  def.sigil("?") do (i: In):
    i.pushSym("help")

  def.sigil("@") do (i: In):
    i.pushSym("bind")

  def.sigil("*") do (i: In):
    i.pushSym("invoke")

  def.sigil("^") do (i: In):
    i.pushSym("lambda")

  def.sigil("~") do (i: In):
    i.pushSym("lambda-bind")

  def.sigil("$") do (i: In):
    i.pushSym("get-env")

  # Shorthand symbol aliases

  def.symbol("=-=") do (i: In):
    i.pushSym("expect-empty-stack")

  def.symbol(":") do (i: In):
    i.pushSym("define")

  def.symbol("?") do (i: In):
    i.pushSym("help")

  def.symbol("@") do (i: In):
    i.pushSym("bind")

  def.symbol("^") do (i: In):
    i.pushSym("lambda")

  def.symbol("~") do (i: In):
    i.pushSym("lambda-bind")

  def.symbol("'") do (i: In):
    i.pushSym("quotesym")

  def.symbol("->") do (i: In):
    i.pushSym("dequote")

  def.symbol("::") do (i: In):
    i.pushSym("operator")

  def.symbol("=>") do (i: In):
    i.pushSym("apply")

  def.symbol("==>") do (i: In):
    discard # used within operator defs

  def.symbol("return") do (i: In):
    discard # used within operator defs

  def.symbol(">>") do (i: In):
    i.pushSym("prefix-dequote")

  def.symbol("><") do (i: In):
    i.pushSym("infix-dequote")

  def.symbol("lambdabind") do (i: In):
    i.pushSym("lambda-bind")

  def.finalize("global")