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- #
- #
- # The Nim Compiler
- # (c) Copyright 2015 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- # This lexer is handwritten for efficiency. I used an elegant buffering
- # scheme which I have not seen anywhere else:
- # We guarantee that a whole line is in the buffer. Thus only when scanning
- # the \n or \r character we have to check whether we need to read in the next
- # chunk. (\n or \r already need special handling for incrementing the line
- # counter; choosing both \n and \r allows the lexer to properly read Unix,
- # DOS or Macintosh text files, even when it is not the native format.
- import
- options, msgs, platform, idents, nimlexbase, llstream,
- wordrecg, lineinfos, pathutils
- import std/[hashes, parseutils, strutils]
- when defined(nimPreviewSlimSystem):
- import std/[assertions, formatfloat]
- const
- numChars*: set[char] = {'0'..'9', 'a'..'z', 'A'..'Z'}
- SymChars*: set[char] = {'a'..'z', 'A'..'Z', '0'..'9', '\x80'..'\xFF'}
- SymStartChars*: set[char] = {'a'..'z', 'A'..'Z', '\x80'..'\xFF'}
- OpChars*: set[char] = {'+', '-', '*', '/', '\\', '<', '>', '!', '?', '^', '.',
- '|', '=', '%', '&', '$', '@', '~', ':'}
- UnaryMinusWhitelist = {' ', '\t', '\n', '\r', ',', ';', '(', '[', '{'}
- # don't forget to update the 'highlite' module if these charsets should change
- type
- TokType* = enum
- tkInvalid = "tkInvalid", tkEof = "[EOF]", # order is important here!
- tkSymbol = "tkSymbol", # keywords:
- tkAddr = "addr", tkAnd = "and", tkAs = "as", tkAsm = "asm",
- tkBind = "bind", tkBlock = "block", tkBreak = "break", tkCase = "case", tkCast = "cast",
- tkConcept = "concept", tkConst = "const", tkContinue = "continue", tkConverter = "converter",
- tkDefer = "defer", tkDiscard = "discard", tkDistinct = "distinct", tkDiv = "div", tkDo = "do",
- tkElif = "elif", tkElse = "else", tkEnd = "end", tkEnum = "enum", tkExcept = "except", tkExport = "export",
- tkFinally = "finally", tkFor = "for", tkFrom = "from", tkFunc = "func",
- tkIf = "if", tkImport = "import", tkIn = "in", tkInclude = "include", tkInterface = "interface",
- tkIs = "is", tkIsnot = "isnot", tkIterator = "iterator",
- tkLet = "let",
- tkMacro = "macro", tkMethod = "method", tkMixin = "mixin", tkMod = "mod", tkNil = "nil", tkNot = "not", tkNotin = "notin",
- tkObject = "object", tkOf = "of", tkOr = "or", tkOut = "out",
- tkProc = "proc", tkPtr = "ptr", tkRaise = "raise", tkRef = "ref", tkReturn = "return",
- tkShl = "shl", tkShr = "shr", tkStatic = "static",
- tkTemplate = "template",
- tkTry = "try", tkTuple = "tuple", tkType = "type", tkUsing = "using",
- tkVar = "var", tkWhen = "when", tkWhile = "while", tkXor = "xor",
- tkYield = "yield", # end of keywords
- tkIntLit = "tkIntLit", tkInt8Lit = "tkInt8Lit", tkInt16Lit = "tkInt16Lit",
- tkInt32Lit = "tkInt32Lit", tkInt64Lit = "tkInt64Lit",
- tkUIntLit = "tkUIntLit", tkUInt8Lit = "tkUInt8Lit", tkUInt16Lit = "tkUInt16Lit",
- tkUInt32Lit = "tkUInt32Lit", tkUInt64Lit = "tkUInt64Lit",
- tkFloatLit = "tkFloatLit", tkFloat32Lit = "tkFloat32Lit",
- tkFloat64Lit = "tkFloat64Lit", tkFloat128Lit = "tkFloat128Lit",
- tkStrLit = "tkStrLit", tkRStrLit = "tkRStrLit", tkTripleStrLit = "tkTripleStrLit",
- tkGStrLit = "tkGStrLit", tkGTripleStrLit = "tkGTripleStrLit", tkCharLit = "tkCharLit",
- tkCustomLit = "tkCustomLit",
- tkParLe = "(", tkParRi = ")", tkBracketLe = "[",
- tkBracketRi = "]", tkCurlyLe = "{", tkCurlyRi = "}",
- tkBracketDotLe = "[.", tkBracketDotRi = ".]",
- tkCurlyDotLe = "{.", tkCurlyDotRi = ".}",
- tkParDotLe = "(.", tkParDotRi = ".)",
- tkComma = ",", tkSemiColon = ";",
- tkColon = ":", tkColonColon = "::", tkEquals = "=",
- tkDot = ".", tkDotDot = "..", tkBracketLeColon = "[:",
- tkOpr, tkComment, tkAccent = "`",
- # these are fake tokens used by renderer.nim
- tkSpaces, tkInfixOpr, tkPrefixOpr, tkPostfixOpr, tkHideableStart, tkHideableEnd
- TokTypes* = set[TokType]
- const
- weakTokens = {tkComma, tkSemiColon, tkColon,
- tkParRi, tkParDotRi, tkBracketRi, tkBracketDotRi,
- tkCurlyRi} # \
- # tokens that should not be considered for previousToken
- tokKeywordLow* = succ(tkSymbol)
- tokKeywordHigh* = pred(tkIntLit)
- type
- NumericalBase* = enum
- base10, # base10 is listed as the first element,
- # so that it is the correct default value
- base2, base8, base16
- TokenSpacing* = enum
- tsLeading, tsTrailing, tsEof
- Token* = object # a Nim token
- tokType*: TokType # the type of the token
- base*: NumericalBase # the numerical base; only valid for int
- # or float literals
- spacing*: set[TokenSpacing] # spaces around token
- indent*: int # the indentation; != -1 if the token has been
- # preceded with indentation
- ident*: PIdent # the parsed identifier
- iNumber*: BiggestInt # the parsed integer literal
- fNumber*: BiggestFloat # the parsed floating point literal
- literal*: string # the parsed (string) literal; and
- # documentation comments are here too
- line*, col*: int
- when defined(nimpretty):
- offsetA*, offsetB*: int # used for pretty printing so that literals
- # like 0b01 or r"\L" are unaffected
- commentOffsetA*, commentOffsetB*: int
- ErrorHandler* = proc (conf: ConfigRef; info: TLineInfo; msg: TMsgKind; arg: string)
- Lexer* = object of TBaseLexer
- fileIdx*: FileIndex
- indentAhead*: int # if > 0 an indentation has already been read
- # this is needed because scanning comments
- # needs so much look-ahead
- currLineIndent*: int
- errorHandler*: ErrorHandler
- cache*: IdentCache
- when defined(nimsuggest):
- previousToken: TLineInfo
- tokenEnd*: TLineInfo
- previousTokenEnd*: TLineInfo
- config*: ConfigRef
- proc getLineInfo*(L: Lexer, tok: Token): TLineInfo {.inline.} =
- result = newLineInfo(L.fileIdx, tok.line, tok.col)
- when defined(nimpretty):
- result.offsetA = tok.offsetA
- result.offsetB = tok.offsetB
- result.commentOffsetA = tok.commentOffsetA
- result.commentOffsetB = tok.commentOffsetB
- proc isKeyword*(kind: TokType): bool =
- (kind >= tokKeywordLow) and (kind <= tokKeywordHigh)
- template ones(n): untyped = ((1 shl n)-1) # for utf-8 conversion
- proc isNimIdentifier*(s: string): bool =
- let sLen = s.len
- if sLen > 0 and s[0] in SymStartChars:
- var i = 1
- while i < sLen:
- if s[i] == '_': inc(i)
- if i < sLen and s[i] notin SymChars: return false
- inc(i)
- result = true
- else:
- result = false
- proc `$`*(tok: Token): string =
- case tok.tokType
- of tkIntLit..tkInt64Lit: $tok.iNumber
- of tkFloatLit..tkFloat64Lit: $tok.fNumber
- of tkInvalid, tkStrLit..tkCharLit, tkComment: tok.literal
- of tkParLe..tkColon, tkEof, tkAccent: $tok.tokType
- else:
- if tok.ident != nil:
- tok.ident.s
- else:
- ""
- proc prettyTok*(tok: Token): string =
- if isKeyword(tok.tokType): "keyword " & tok.ident.s
- else: $tok
- proc printTok*(conf: ConfigRef; tok: Token) =
- # xxx factor with toLocation
- msgWriteln(conf, $tok.line & ":" & $tok.col & "\t" & $tok.tokType & " " & $tok)
- proc openLexer*(lex: var Lexer, fileIdx: FileIndex, inputstream: PLLStream;
- cache: IdentCache; config: ConfigRef) =
- openBaseLexer(lex, inputstream)
- lex.fileIdx = fileIdx
- lex.indentAhead = -1
- lex.currLineIndent = 0
- inc(lex.lineNumber, inputstream.lineOffset)
- lex.cache = cache
- when defined(nimsuggest):
- lex.previousToken.fileIndex = fileIdx
- lex.config = config
- proc openLexer*(lex: var Lexer, filename: AbsoluteFile, inputstream: PLLStream;
- cache: IdentCache; config: ConfigRef) =
- openLexer(lex, fileInfoIdx(config, filename), inputstream, cache, config)
- proc closeLexer*(lex: var Lexer) =
- if lex.config != nil:
- inc(lex.config.linesCompiled, lex.lineNumber)
- closeBaseLexer(lex)
- proc getLineInfo(L: Lexer): TLineInfo =
- result = newLineInfo(L.fileIdx, L.lineNumber, getColNumber(L, L.bufpos))
- proc dispMessage(L: Lexer; info: TLineInfo; msg: TMsgKind; arg: string) =
- if L.errorHandler.isNil:
- msgs.message(L.config, info, msg, arg)
- else:
- L.errorHandler(L.config, info, msg, arg)
- proc lexMessage*(L: Lexer, msg: TMsgKind, arg = "") =
- L.dispMessage(getLineInfo(L), msg, arg)
- proc lexMessageTok*(L: Lexer, msg: TMsgKind, tok: Token, arg = "") =
- var info = newLineInfo(L.fileIdx, tok.line, tok.col)
- L.dispMessage(info, msg, arg)
- proc lexMessagePos(L: var Lexer, msg: TMsgKind, pos: int, arg = "") =
- var info = newLineInfo(L.fileIdx, L.lineNumber, pos - L.lineStart)
- L.dispMessage(info, msg, arg)
- proc matchTwoChars(L: Lexer, first: char, second: set[char]): bool =
- result = (L.buf[L.bufpos] == first) and (L.buf[L.bufpos + 1] in second)
- template tokenBegin(tok, pos) {.dirty.} =
- when defined(nimsuggest):
- var colA = getColNumber(L, pos)
- when defined(nimpretty):
- tok.offsetA = L.offsetBase + pos
- template tokenEnd(tok, pos) {.dirty.} =
- when defined(nimsuggest):
- let colB = getColNumber(L, pos)+1
- if L.fileIdx == L.config.m.trackPos.fileIndex and L.config.m.trackPos.col in colA..colB and
- L.lineNumber == L.config.m.trackPos.line.int and L.config.ideCmd in {ideSug, ideCon}:
- L.config.m.trackPos.col = colA.int16
- colA = 0
- when defined(nimpretty):
- tok.offsetB = L.offsetBase + pos
- template tokenEndIgnore(tok, pos) =
- when defined(nimsuggest):
- let colB = getColNumber(L, pos)
- if L.fileIdx == L.config.m.trackPos.fileIndex and L.config.m.trackPos.col in colA..colB and
- L.lineNumber == L.config.m.trackPos.line.int and L.config.ideCmd in {ideSug, ideCon}:
- L.config.m.trackPos.fileIndex = trackPosInvalidFileIdx
- L.config.m.trackPos.line = 0'u16
- colA = 0
- when defined(nimpretty):
- tok.offsetB = L.offsetBase + pos
- template tokenEndPrevious(tok, pos) =
- when defined(nimsuggest):
- # when we detect the cursor in whitespace, we attach the track position
- # to the token that came before that, but only if we haven't detected
- # the cursor in a string literal or comment:
- let colB = getColNumber(L, pos)
- if L.fileIdx == L.config.m.trackPos.fileIndex and L.config.m.trackPos.col in colA..colB and
- L.lineNumber == L.config.m.trackPos.line.int and L.config.ideCmd in {ideSug, ideCon}:
- L.config.m.trackPos = L.previousToken
- L.config.m.trackPosAttached = true
- colA = 0
- when defined(nimpretty):
- tok.offsetB = L.offsetBase + pos
- template eatChar(L: var Lexer, t: var Token, replacementChar: char) =
- t.literal.add(replacementChar)
- inc(L.bufpos)
- template eatChar(L: var Lexer, t: var Token) =
- t.literal.add(L.buf[L.bufpos])
- inc(L.bufpos)
- proc getNumber(L: var Lexer, result: var Token) =
- proc matchUnderscoreChars(L: var Lexer, tok: var Token, chars: set[char]): Natural =
- var pos = L.bufpos # use registers for pos, buf
- result = 0
- while true:
- if L.buf[pos] in chars:
- tok.literal.add(L.buf[pos])
- inc(pos)
- inc(result)
- else:
- break
- if L.buf[pos] == '_':
- if L.buf[pos+1] notin chars:
- lexMessage(L, errGenerated,
- "only single underscores may occur in a token and token may not " &
- "end with an underscore: e.g. '1__1' and '1_' are invalid")
- break
- tok.literal.add('_')
- inc(pos)
- L.bufpos = pos
- proc matchChars(L: var Lexer, tok: var Token, chars: set[char]) =
- var pos = L.bufpos # use registers for pos, buf
- while L.buf[pos] in chars:
- tok.literal.add(L.buf[pos])
- inc(pos)
- L.bufpos = pos
- proc lexMessageLitNum(L: var Lexer, msg: string, startpos: int, msgKind = errGenerated) =
- # Used to get slightly human friendlier err messages.
- const literalishChars = {'A'..'Z', 'a'..'z', '0'..'9', '_', '.', '\''}
- var msgPos = L.bufpos
- var t = Token(literal: "")
- L.bufpos = startpos # Use L.bufpos as pos because of matchChars
- matchChars(L, t, literalishChars)
- # We must verify +/- specifically so that we're not past the literal
- if L.buf[L.bufpos] in {'+', '-'} and
- L.buf[L.bufpos - 1] in {'e', 'E'}:
- t.literal.add(L.buf[L.bufpos])
- inc(L.bufpos)
- matchChars(L, t, literalishChars)
- if L.buf[L.bufpos] in literalishChars:
- t.literal.add(L.buf[L.bufpos])
- inc(L.bufpos)
- matchChars(L, t, {'0'..'9'})
- L.bufpos = msgPos
- lexMessage(L, msgKind, msg % t.literal)
- var
- xi: BiggestInt
- isBase10 = true
- numDigits = 0
- const
- # 'c', 'C' is deprecated
- baseCodeChars = {'X', 'x', 'o', 'b', 'B', 'c', 'C'}
- literalishChars = baseCodeChars + {'A'..'F', 'a'..'f', '0'..'9', '_', '\''}
- floatTypes = {tkFloatLit, tkFloat32Lit, tkFloat64Lit, tkFloat128Lit}
- result.tokType = tkIntLit # int literal until we know better
- result.literal = ""
- result.base = base10
- tokenBegin(result, L.bufpos)
- var isPositive = true
- if L.buf[L.bufpos] == '-':
- eatChar(L, result)
- isPositive = false
- let startpos = L.bufpos
- template setNumber(field, value) =
- field = (if isPositive: value else: -value)
- # First stage: find out base, make verifications, build token literal string
- # {'c', 'C'} is added for deprecation reasons to provide a clear error message
- if L.buf[L.bufpos] == '0' and L.buf[L.bufpos + 1] in baseCodeChars + {'c', 'C', 'O'}:
- isBase10 = false
- eatChar(L, result, '0')
- case L.buf[L.bufpos]
- of 'c', 'C':
- lexMessageLitNum(L,
- "$1 will soon be invalid for oct literals; Use '0o' " &
- "for octals. 'c', 'C' prefix",
- startpos,
- warnDeprecated)
- eatChar(L, result, 'c')
- numDigits = matchUnderscoreChars(L, result, {'0'..'7'})
- of 'O':
- lexMessageLitNum(L, "$1 is an invalid int literal; For octal literals " &
- "use the '0o' prefix.", startpos)
- of 'x', 'X':
- eatChar(L, result, 'x')
- numDigits = matchUnderscoreChars(L, result, {'0'..'9', 'a'..'f', 'A'..'F'})
- of 'o':
- eatChar(L, result, 'o')
- numDigits = matchUnderscoreChars(L, result, {'0'..'7'})
- of 'b', 'B':
- eatChar(L, result, 'b')
- numDigits = matchUnderscoreChars(L, result, {'0'..'1'})
- else:
- internalError(L.config, getLineInfo(L), "getNumber")
- if numDigits == 0:
- lexMessageLitNum(L, "invalid number: '$1'", startpos)
- else:
- discard matchUnderscoreChars(L, result, {'0'..'9'})
- if (L.buf[L.bufpos] == '.') and (L.buf[L.bufpos + 1] in {'0'..'9'}):
- result.tokType = tkFloatLit
- eatChar(L, result, '.')
- discard matchUnderscoreChars(L, result, {'0'..'9'})
- if L.buf[L.bufpos] in {'e', 'E'}:
- result.tokType = tkFloatLit
- eatChar(L, result)
- if L.buf[L.bufpos] in {'+', '-'}:
- eatChar(L, result)
- discard matchUnderscoreChars(L, result, {'0'..'9'})
- let endpos = L.bufpos
- # Second stage, find out if there's a datatype suffix and handle it
- var postPos = endpos
- if L.buf[postPos] in {'\'', 'f', 'F', 'd', 'D', 'i', 'I', 'u', 'U'}:
- let errPos = postPos
- var customLitPossible = false
- if L.buf[postPos] == '\'':
- inc(postPos)
- customLitPossible = true
- if L.buf[postPos] in SymChars:
- var suffix = newStringOfCap(10)
- while true:
- suffix.add L.buf[postPos]
- inc postPos
- if L.buf[postPos] notin SymChars+{'_'}: break
- let suffixAsLower = suffix.toLowerAscii
- case suffixAsLower
- of "f", "f32": result.tokType = tkFloat32Lit
- of "d", "f64": result.tokType = tkFloat64Lit
- of "f128": result.tokType = tkFloat128Lit
- of "i8": result.tokType = tkInt8Lit
- of "i16": result.tokType = tkInt16Lit
- of "i32": result.tokType = tkInt32Lit
- of "i64": result.tokType = tkInt64Lit
- of "u": result.tokType = tkUIntLit
- of "u8": result.tokType = tkUInt8Lit
- of "u16": result.tokType = tkUInt16Lit
- of "u32": result.tokType = tkUInt32Lit
- of "u64": result.tokType = tkUInt64Lit
- elif customLitPossible:
- # remember the position of the `'` so that the parser doesn't
- # have to reparse the custom literal:
- result.iNumber = len(result.literal)
- result.literal.add '\''
- result.literal.add suffix
- result.tokType = tkCustomLit
- else:
- lexMessageLitNum(L, "invalid number suffix: '$1'", errPos)
- else:
- lexMessageLitNum(L, "invalid number suffix: '$1'", errPos)
- # Is there still a literalish char awaiting? Then it's an error!
- if L.buf[postPos] in literalishChars or
- (L.buf[postPos] == '.' and L.buf[postPos + 1] in {'0'..'9'}):
- lexMessageLitNum(L, "invalid number: '$1'", startpos)
- if result.tokType != tkCustomLit:
- # Third stage, extract actual number
- L.bufpos = startpos # restore position
- var pos = startpos
- try:
- if (L.buf[pos] == '0') and (L.buf[pos + 1] in baseCodeChars):
- inc(pos, 2)
- xi = 0 # it is a base prefix
- case L.buf[pos - 1]
- of 'b', 'B':
- result.base = base2
- while pos < endpos:
- if L.buf[pos] != '_':
- xi = `shl`(xi, 1) or (ord(L.buf[pos]) - ord('0'))
- inc(pos)
- # 'c', 'C' is deprecated (a warning is issued elsewhere)
- of 'o', 'c', 'C':
- result.base = base8
- while pos < endpos:
- if L.buf[pos] != '_':
- xi = `shl`(xi, 3) or (ord(L.buf[pos]) - ord('0'))
- inc(pos)
- of 'x', 'X':
- result.base = base16
- while pos < endpos:
- case L.buf[pos]
- of '_':
- inc(pos)
- of '0'..'9':
- xi = `shl`(xi, 4) or (ord(L.buf[pos]) - ord('0'))
- inc(pos)
- of 'a'..'f':
- xi = `shl`(xi, 4) or (ord(L.buf[pos]) - ord('a') + 10)
- inc(pos)
- of 'A'..'F':
- xi = `shl`(xi, 4) or (ord(L.buf[pos]) - ord('A') + 10)
- inc(pos)
- else:
- break
- else:
- internalError(L.config, getLineInfo(L), "getNumber")
- case result.tokType
- of tkIntLit, tkInt64Lit: setNumber result.iNumber, xi
- of tkInt8Lit: setNumber result.iNumber, ashr(xi shl 56, 56)
- of tkInt16Lit: setNumber result.iNumber, ashr(xi shl 48, 48)
- of tkInt32Lit: setNumber result.iNumber, ashr(xi shl 32, 32)
- of tkUIntLit, tkUInt64Lit: setNumber result.iNumber, xi
- of tkUInt8Lit: setNumber result.iNumber, xi and 0xff
- of tkUInt16Lit: setNumber result.iNumber, xi and 0xffff
- of tkUInt32Lit: setNumber result.iNumber, xi and 0xffffffff
- of tkFloat32Lit:
- setNumber result.fNumber, (cast[ptr float32](addr(xi)))[]
- # note: this code is endian neutral!
- # XXX: Test this on big endian machine!
- of tkFloat64Lit, tkFloatLit:
- setNumber result.fNumber, (cast[ptr float64](addr(xi)))[]
- else: internalError(L.config, getLineInfo(L), "getNumber")
- # Bounds checks. Non decimal literals are allowed to overflow the range of
- # the datatype as long as their pattern don't overflow _bitwise_, hence
- # below checks of signed sizes against uint*.high is deliberate:
- # (0x80'u8 = 128, 0x80'i8 = -128, etc == OK)
- if result.tokType notin floatTypes:
- let outOfRange =
- case result.tokType
- of tkUInt8Lit, tkUInt16Lit, tkUInt32Lit: result.iNumber != xi
- of tkInt8Lit: (xi > BiggestInt(uint8.high))
- of tkInt16Lit: (xi > BiggestInt(uint16.high))
- of tkInt32Lit: (xi > BiggestInt(uint32.high))
- else: false
- if outOfRange:
- #echo "out of range num: ", result.iNumber, " vs ", xi
- lexMessageLitNum(L, "number out of range: '$1'", startpos)
- else:
- case result.tokType
- of floatTypes:
- result.fNumber = parseFloat(result.literal)
- of tkUInt64Lit, tkUIntLit:
- var iNumber: uint64 = uint64(0)
- var len: int = 0
- try:
- len = parseBiggestUInt(result.literal, iNumber)
- except ValueError:
- raise newException(OverflowDefect, "number out of range: " & result.literal)
- if len != result.literal.len:
- raise newException(ValueError, "invalid integer: " & result.literal)
- result.iNumber = cast[int64](iNumber)
- else:
- var iNumber: int64 = int64(0)
- var len: int = 0
- try:
- len = parseBiggestInt(result.literal, iNumber)
- except ValueError:
- raise newException(OverflowDefect, "number out of range: " & result.literal)
- if len != result.literal.len:
- raise newException(ValueError, "invalid integer: " & result.literal)
- result.iNumber = iNumber
- # Explicit bounds checks.
- let outOfRange =
- case result.tokType
- of tkInt8Lit: result.iNumber > int8.high or result.iNumber < int8.low
- of tkUInt8Lit: result.iNumber > BiggestInt(uint8.high) or result.iNumber < 0
- of tkInt16Lit: result.iNumber > int16.high or result.iNumber < int16.low
- of tkUInt16Lit: result.iNumber > BiggestInt(uint16.high) or result.iNumber < 0
- of tkInt32Lit: result.iNumber > int32.high or result.iNumber < int32.low
- of tkUInt32Lit: result.iNumber > BiggestInt(uint32.high) or result.iNumber < 0
- else: false
- if outOfRange:
- lexMessageLitNum(L, "number out of range: '$1'", startpos)
- # Promote int literal to int64? Not always necessary, but more consistent
- if result.tokType == tkIntLit:
- if result.iNumber > high(int32) or result.iNumber < low(int32):
- result.tokType = tkInt64Lit
- except ValueError:
- lexMessageLitNum(L, "invalid number: '$1'", startpos)
- except OverflowDefect, RangeDefect:
- lexMessageLitNum(L, "number out of range: '$1'", startpos)
- tokenEnd(result, postPos-1)
- L.bufpos = postPos
- proc handleHexChar(L: var Lexer, xi: var int; position: range[0..4]) =
- template invalid() =
- lexMessage(L, errGenerated,
- "expected a hex digit, but found: " & L.buf[L.bufpos] &
- "; maybe prepend with 0")
- case L.buf[L.bufpos]
- of '0'..'9':
- xi = (xi shl 4) or (ord(L.buf[L.bufpos]) - ord('0'))
- inc(L.bufpos)
- of 'a'..'f':
- xi = (xi shl 4) or (ord(L.buf[L.bufpos]) - ord('a') + 10)
- inc(L.bufpos)
- of 'A'..'F':
- xi = (xi shl 4) or (ord(L.buf[L.bufpos]) - ord('A') + 10)
- inc(L.bufpos)
- of '"', '\'':
- if position <= 1: invalid()
- # do not progress the bufpos here.
- if position == 0: inc(L.bufpos)
- else:
- invalid()
- # Need to progress for `nim check`
- inc(L.bufpos)
- proc handleDecChars(L: var Lexer, xi: var int) =
- while L.buf[L.bufpos] in {'0'..'9'}:
- xi = (xi * 10) + (ord(L.buf[L.bufpos]) - ord('0'))
- inc(L.bufpos)
- proc addUnicodeCodePoint(s: var string, i: int) =
- let i = cast[uint](i)
- # inlined toUTF-8 to avoid unicode and strutils dependencies.
- let pos = s.len
- if i <= 127:
- s.setLen(pos+1)
- s[pos+0] = chr(i)
- elif i <= 0x07FF:
- s.setLen(pos+2)
- s[pos+0] = chr((i shr 6) or 0b110_00000)
- s[pos+1] = chr((i and ones(6)) or 0b10_0000_00)
- elif i <= 0xFFFF:
- s.setLen(pos+3)
- s[pos+0] = chr(i shr 12 or 0b1110_0000)
- s[pos+1] = chr(i shr 6 and ones(6) or 0b10_0000_00)
- s[pos+2] = chr(i and ones(6) or 0b10_0000_00)
- elif i <= 0x001FFFFF:
- s.setLen(pos+4)
- s[pos+0] = chr(i shr 18 or 0b1111_0000)
- s[pos+1] = chr(i shr 12 and ones(6) or 0b10_0000_00)
- s[pos+2] = chr(i shr 6 and ones(6) or 0b10_0000_00)
- s[pos+3] = chr(i and ones(6) or 0b10_0000_00)
- elif i <= 0x03FFFFFF:
- s.setLen(pos+5)
- s[pos+0] = chr(i shr 24 or 0b111110_00)
- s[pos+1] = chr(i shr 18 and ones(6) or 0b10_0000_00)
- s[pos+2] = chr(i shr 12 and ones(6) or 0b10_0000_00)
- s[pos+3] = chr(i shr 6 and ones(6) or 0b10_0000_00)
- s[pos+4] = chr(i and ones(6) or 0b10_0000_00)
- elif i <= 0x7FFFFFFF:
- s.setLen(pos+6)
- s[pos+0] = chr(i shr 30 or 0b1111110_0)
- s[pos+1] = chr(i shr 24 and ones(6) or 0b10_0000_00)
- s[pos+2] = chr(i shr 18 and ones(6) or 0b10_0000_00)
- s[pos+3] = chr(i shr 12 and ones(6) or 0b10_0000_00)
- s[pos+4] = chr(i shr 6 and ones(6) or 0b10_0000_00)
- s[pos+5] = chr(i and ones(6) or 0b10_0000_00)
- proc getEscapedChar(L: var Lexer, tok: var Token) =
- inc(L.bufpos) # skip '\'
- case L.buf[L.bufpos]
- of 'n', 'N':
- tok.literal.add('\L')
- inc(L.bufpos)
- of 'p', 'P':
- if tok.tokType == tkCharLit:
- lexMessage(L, errGenerated, "\\p not allowed in character literal")
- tok.literal.add(L.config.target.tnl)
- inc(L.bufpos)
- of 'r', 'R', 'c', 'C':
- tok.literal.add(CR)
- inc(L.bufpos)
- of 'l', 'L':
- tok.literal.add(LF)
- inc(L.bufpos)
- of 'f', 'F':
- tok.literal.add(FF)
- inc(L.bufpos)
- of 'e', 'E':
- tok.literal.add(ESC)
- inc(L.bufpos)
- of 'a', 'A':
- tok.literal.add(BEL)
- inc(L.bufpos)
- of 'b', 'B':
- tok.literal.add(BACKSPACE)
- inc(L.bufpos)
- of 'v', 'V':
- tok.literal.add(VT)
- inc(L.bufpos)
- of 't', 'T':
- tok.literal.add('\t')
- inc(L.bufpos)
- of '\'', '\"':
- tok.literal.add(L.buf[L.bufpos])
- inc(L.bufpos)
- of '\\':
- tok.literal.add('\\')
- inc(L.bufpos)
- of 'x', 'X':
- inc(L.bufpos)
- var xi = 0
- handleHexChar(L, xi, 1)
- handleHexChar(L, xi, 2)
- tok.literal.add(chr(xi))
- of 'u', 'U':
- if tok.tokType == tkCharLit:
- lexMessage(L, errGenerated, "\\u not allowed in character literal")
- inc(L.bufpos)
- var xi = 0
- if L.buf[L.bufpos] == '{':
- inc(L.bufpos)
- var start = L.bufpos
- while L.buf[L.bufpos] != '}':
- handleHexChar(L, xi, 0)
- if start == L.bufpos:
- lexMessage(L, errGenerated,
- "Unicode codepoint cannot be empty")
- inc(L.bufpos)
- if xi > 0x10FFFF:
- let hex = ($L.buf)[start..L.bufpos-2]
- lexMessage(L, errGenerated,
- "Unicode codepoint must be lower than 0x10FFFF, but was: " & hex)
- else:
- handleHexChar(L, xi, 1)
- handleHexChar(L, xi, 2)
- handleHexChar(L, xi, 3)
- handleHexChar(L, xi, 4)
- addUnicodeCodePoint(tok.literal, xi)
- of '0'..'9':
- if matchTwoChars(L, '0', {'0'..'9'}):
- lexMessage(L, warnOctalEscape)
- var xi = 0
- handleDecChars(L, xi)
- if (xi <= 255): tok.literal.add(chr(xi))
- else: lexMessage(L, errGenerated, "invalid character constant")
- else: lexMessage(L, errGenerated, "invalid character constant")
- proc handleCRLF(L: var Lexer, pos: int): int =
- template registerLine =
- let col = L.getColNumber(pos)
- case L.buf[pos]
- of CR:
- registerLine()
- result = nimlexbase.handleCR(L, pos)
- of LF:
- registerLine()
- result = nimlexbase.handleLF(L, pos)
- else: result = pos
- type
- StringMode = enum
- normal,
- raw,
- generalized
- proc getString(L: var Lexer, tok: var Token, mode: StringMode) =
- var pos = L.bufpos
- var line = L.lineNumber # save linenumber for better error message
- tokenBegin(tok, pos - ord(mode == raw))
- inc pos # skip "
- if L.buf[pos] == '\"' and L.buf[pos+1] == '\"':
- tok.tokType = tkTripleStrLit # long string literal:
- inc(pos, 2) # skip ""
- # skip leading newline:
- if L.buf[pos] in {' ', '\t'}:
- var newpos = pos+1
- while L.buf[newpos] in {' ', '\t'}: inc newpos
- if L.buf[newpos] in {CR, LF}: pos = newpos
- pos = handleCRLF(L, pos)
- while true:
- case L.buf[pos]
- of '\"':
- if L.buf[pos+1] == '\"' and L.buf[pos+2] == '\"' and
- L.buf[pos+3] != '\"':
- tokenEndIgnore(tok, pos+2)
- L.bufpos = pos + 3 # skip the three """
- break
- tok.literal.add('\"')
- inc(pos)
- of CR, LF:
- tokenEndIgnore(tok, pos)
- pos = handleCRLF(L, pos)
- tok.literal.add("\n")
- of nimlexbase.EndOfFile:
- tokenEndIgnore(tok, pos)
- var line2 = L.lineNumber
- L.lineNumber = line
- lexMessagePos(L, errGenerated, L.lineStart, "closing \"\"\" expected, but end of file reached")
- L.lineNumber = line2
- L.bufpos = pos
- break
- else:
- tok.literal.add(L.buf[pos])
- inc(pos)
- else:
- # ordinary string literal
- if mode != normal: tok.tokType = tkRStrLit
- else: tok.tokType = tkStrLit
- while true:
- let c = L.buf[pos]
- if c == '\"':
- if mode != normal and L.buf[pos+1] == '\"':
- inc(pos, 2)
- tok.literal.add('"')
- else:
- tokenEndIgnore(tok, pos)
- inc(pos) # skip '"'
- break
- elif c in {CR, LF, nimlexbase.EndOfFile}:
- tokenEndIgnore(tok, pos)
- lexMessage(L, errGenerated, "closing \" expected")
- break
- elif (c == '\\') and mode == normal:
- L.bufpos = pos
- getEscapedChar(L, tok)
- pos = L.bufpos
- else:
- tok.literal.add(c)
- inc(pos)
- L.bufpos = pos
- proc getCharacter(L: var Lexer; tok: var Token) =
- tokenBegin(tok, L.bufpos)
- let startPos = L.bufpos
- inc(L.bufpos) # skip '
- let c = L.buf[L.bufpos]
- case c
- of '\0'..pred(' '), '\'':
- lexMessage(L, errGenerated, "invalid character literal")
- tok.literal = $c
- of '\\': getEscapedChar(L, tok)
- else:
- tok.literal = $c
- inc(L.bufpos)
- if L.buf[L.bufpos] == '\'':
- tokenEndIgnore(tok, L.bufpos)
- inc(L.bufpos) # skip '
- else:
- if startPos > 0 and L.buf[startPos-1] == '`':
- tok.literal = "'"
- L.bufpos = startPos+1
- else:
- lexMessage(L, errGenerated, "missing closing ' for character literal")
- tokenEndIgnore(tok, L.bufpos)
- const
- UnicodeOperatorStartChars = {'\226', '\194', '\195'}
- # the allowed unicode characters ("∙ ∘ × ★ ⊗ ⊘ ⊙ ⊛ ⊠ ⊡ ∩ ∧ ⊓ ± ⊕ ⊖ ⊞ ⊟ ∪ ∨ ⊔")
- # all start with one of these.
- type
- UnicodeOprPred = enum
- Mul, Add
- proc unicodeOprLen(buf: cstring; pos: int): (int8, UnicodeOprPred) =
- template m(len): untyped = (int8(len), Mul)
- template a(len): untyped = (int8(len), Add)
- result = 0.m
- case buf[pos]
- of '\226':
- if buf[pos+1] == '\136':
- if buf[pos+2] == '\152': result = 3.m # ∘
- elif buf[pos+2] == '\153': result = 3.m # ∙
- elif buf[pos+2] == '\167': result = 3.m # ∧
- elif buf[pos+2] == '\168': result = 3.a # ∨
- elif buf[pos+2] == '\169': result = 3.m # ∩
- elif buf[pos+2] == '\170': result = 3.a # ∪
- elif buf[pos+1] == '\138':
- if buf[pos+2] == '\147': result = 3.m # ⊓
- elif buf[pos+2] == '\148': result = 3.a # ⊔
- elif buf[pos+2] == '\149': result = 3.a # ⊕
- elif buf[pos+2] == '\150': result = 3.a # ⊖
- elif buf[pos+2] == '\151': result = 3.m # ⊗
- elif buf[pos+2] == '\152': result = 3.m # ⊘
- elif buf[pos+2] == '\153': result = 3.m # ⊙
- elif buf[pos+2] == '\155': result = 3.m # ⊛
- elif buf[pos+2] == '\158': result = 3.a # ⊞
- elif buf[pos+2] == '\159': result = 3.a # ⊟
- elif buf[pos+2] == '\160': result = 3.m # ⊠
- elif buf[pos+2] == '\161': result = 3.m # ⊡
- elif buf[pos+1] == '\152' and buf[pos+2] == '\133': result = 3.m # ★
- of '\194':
- if buf[pos+1] == '\177': result = 2.a # ±
- of '\195':
- if buf[pos+1] == '\151': result = 2.m # ×
- else:
- discard
- proc getSymbol(L: var Lexer, tok: var Token) =
- var h: Hash = 0
- var pos = L.bufpos
- tokenBegin(tok, pos)
- var suspicious = false
- while true:
- var c = L.buf[pos]
- case c
- of 'a'..'z', '0'..'9':
- h = h !& ord(c)
- inc(pos)
- of 'A'..'Z':
- c = chr(ord(c) + (ord('a') - ord('A'))) # toLower()
- h = h !& ord(c)
- inc(pos)
- suspicious = true
- of '_':
- if L.buf[pos+1] notin SymChars:
- lexMessage(L, errGenerated, "invalid token: trailing underscore")
- break
- inc(pos)
- suspicious = true
- of '\x80'..'\xFF':
- if c in UnicodeOperatorStartChars and unicodeOprLen(L.buf, pos)[0] != 0:
- break
- else:
- h = h !& ord(c)
- inc(pos)
- else: break
- tokenEnd(tok, pos-1)
- h = !$h
- tok.ident = L.cache.getIdent(cast[cstring](addr(L.buf[L.bufpos])), pos - L.bufpos, h)
- if (tok.ident.id < ord(tokKeywordLow) - ord(tkSymbol)) or
- (tok.ident.id > ord(tokKeywordHigh) - ord(tkSymbol)):
- tok.tokType = tkSymbol
- else:
- tok.tokType = TokType(tok.ident.id + ord(tkSymbol))
- if suspicious and {optStyleHint, optStyleError} * L.config.globalOptions != {}:
- lintReport(L.config, getLineInfo(L), tok.ident.s.normalize, tok.ident.s)
- L.bufpos = pos
- proc endOperator(L: var Lexer, tok: var Token, pos: int,
- hash: Hash) {.inline.} =
- var h = !$hash
- tok.ident = L.cache.getIdent(cast[cstring](addr(L.buf[L.bufpos])), pos - L.bufpos, h)
- if (tok.ident.id < oprLow) or (tok.ident.id > oprHigh): tok.tokType = tkOpr
- else: tok.tokType = TokType(tok.ident.id - oprLow + ord(tkColon))
- L.bufpos = pos
- proc getOperator(L: var Lexer, tok: var Token) =
- var pos = L.bufpos
- tokenBegin(tok, pos)
- var h: Hash = 0
- while true:
- let c = L.buf[pos]
- if c in OpChars:
- h = h !& ord(c)
- inc(pos)
- elif c in UnicodeOperatorStartChars:
- let oprLen = unicodeOprLen(L.buf, pos)[0]
- if oprLen == 0: break
- for i in 0..<oprLen:
- h = h !& ord(L.buf[pos])
- inc pos
- else:
- break
- endOperator(L, tok, pos, h)
- tokenEnd(tok, pos-1)
- # advance pos but don't store it in L.bufpos so the next token (which might
- # be an operator too) gets the preceding spaces:
- tok.spacing = tok.spacing - {tsTrailing, tsEof}
- var trailing = false
- while L.buf[pos] == ' ':
- inc pos
- trailing = true
- if L.buf[pos] in {CR, LF, nimlexbase.EndOfFile}:
- tok.spacing.incl(tsEof)
- elif trailing:
- tok.spacing.incl(tsTrailing)
- proc getPrecedence*(tok: Token): int =
- ## Calculates the precedence of the given token.
- const
- MulPred = 9
- PlusPred = 8
- case tok.tokType
- of tkOpr:
- let relevantChar = tok.ident.s[0]
- # arrow like?
- if tok.ident.s.len > 1 and tok.ident.s[^1] == '>' and
- tok.ident.s[^2] in {'-', '~', '='}: return 0
- template considerAsgn(value: untyped) =
- result = if tok.ident.s[^1] == '=': 1 else: value
- case relevantChar
- of '$', '^': considerAsgn(10)
- of '*', '%', '/', '\\': considerAsgn(MulPred)
- of '~': result = 8
- of '+', '-', '|': considerAsgn(PlusPred)
- of '&': considerAsgn(7)
- of '=', '<', '>', '!': result = 5
- of '.': considerAsgn(6)
- of '?': result = 2
- of UnicodeOperatorStartChars:
- if tok.ident.s[^1] == '=':
- result = 1
- else:
- let (len, pred) = unicodeOprLen(cstring(tok.ident.s), 0)
- if len != 0:
- result = if pred == Mul: MulPred else: PlusPred
- else:
- result = 2
- else: considerAsgn(2)
- of tkDiv, tkMod, tkShl, tkShr: result = 9
- of tkDotDot: result = 6
- of tkIn, tkNotin, tkIs, tkIsnot, tkOf, tkAs, tkFrom: result = 5
- of tkAnd: result = 4
- of tkOr, tkXor, tkPtr, tkRef: result = 3
- else: return -10
- proc skipMultiLineComment(L: var Lexer; tok: var Token; start: int;
- isDoc: bool) =
- var pos = start
- var toStrip = 0
- tokenBegin(tok, pos)
- # detect the amount of indentation:
- if isDoc:
- toStrip = getColNumber(L, pos)
- while L.buf[pos] == ' ':
- inc pos
- inc toStrip
- while L.buf[pos] in {CR, LF}: # skip blank lines
- pos = handleCRLF(L, pos)
- toStrip = 0
- while L.buf[pos] == ' ':
- inc pos
- inc toStrip
- var nesting = 0
- while true:
- case L.buf[pos]
- of '#':
- if isDoc:
- if L.buf[pos+1] == '#' and L.buf[pos+2] == '[':
- inc nesting
- tok.literal.add '#'
- elif L.buf[pos+1] == '[':
- inc nesting
- inc pos
- of ']':
- if isDoc:
- if L.buf[pos+1] == '#' and L.buf[pos+2] == '#':
- if nesting == 0:
- tokenEndIgnore(tok, pos+2)
- inc(pos, 3)
- break
- dec nesting
- tok.literal.add ']'
- elif L.buf[pos+1] == '#':
- if nesting == 0:
- tokenEndIgnore(tok, pos+1)
- inc(pos, 2)
- break
- dec nesting
- inc pos
- of CR, LF:
- tokenEndIgnore(tok, pos)
- pos = handleCRLF(L, pos)
- # strip leading whitespace:
- when defined(nimpretty): tok.literal.add "\L"
- if isDoc:
- when not defined(nimpretty): tok.literal.add "\n"
- var c = toStrip
- while L.buf[pos] == ' ' and c > 0:
- inc pos
- dec c
- of nimlexbase.EndOfFile:
- tokenEndIgnore(tok, pos)
- lexMessagePos(L, errGenerated, pos, "end of multiline comment expected")
- break
- else:
- if isDoc or defined(nimpretty): tok.literal.add L.buf[pos]
- inc(pos)
- L.bufpos = pos
- when defined(nimpretty):
- tok.commentOffsetB = L.offsetBase + pos - 1
- proc scanComment(L: var Lexer, tok: var Token) =
- var pos = L.bufpos
- tok.tokType = tkComment
- assert L.buf[pos+1] == '#'
- when defined(nimpretty):
- tok.commentOffsetA = L.offsetBase + pos
- if L.buf[pos+2] == '[':
- skipMultiLineComment(L, tok, pos+3, true)
- return
- tokenBegin(tok, pos)
- inc(pos, 2)
- var toStrip = 0
- var stripInit = false
- while true:
- if not stripInit: # find baseline indentation inside comment
- while L.buf[pos] == ' ':
- inc pos
- inc toStrip
- if L.buf[pos] in {CR, LF}: # don't set toStrip in blank comment lines
- toStrip = 0
- else: # found first non-whitespace character
- stripInit = true
- while L.buf[pos] notin {CR, LF, nimlexbase.EndOfFile}:
- tok.literal.add(L.buf[pos])
- inc(pos)
- tokenEndIgnore(tok, pos)
- pos = handleCRLF(L, pos)
- var indent = 0
- while L.buf[pos] == ' ':
- inc(pos)
- inc(indent)
- if L.buf[pos] == '#' and L.buf[pos+1] == '#':
- tok.literal.add "\n"
- inc(pos, 2)
- if stripInit:
- var c = toStrip
- while L.buf[pos] == ' ' and c > 0:
- inc pos
- dec c
- else:
- if L.buf[pos] > ' ':
- L.indentAhead = indent
- tokenEndIgnore(tok, pos)
- break
- L.bufpos = pos
- when defined(nimpretty):
- tok.commentOffsetB = L.offsetBase + pos - 1
- proc skip(L: var Lexer, tok: var Token) =
- var pos = L.bufpos
- tokenBegin(tok, pos)
- tok.spacing.excl(tsLeading)
- when defined(nimpretty):
- var hasComment = false
- var commentIndent = L.currLineIndent
- tok.commentOffsetA = L.offsetBase + pos
- tok.commentOffsetB = tok.commentOffsetA
- tok.line = -1
- while true:
- case L.buf[pos]
- of ' ':
- inc(pos)
- tok.spacing.incl(tsLeading)
- of '\t':
- lexMessagePos(L, errGenerated, pos, "tabs are not allowed, use spaces instead")
- inc(pos)
- of CR, LF:
- tokenEndPrevious(tok, pos)
- pos = handleCRLF(L, pos)
- var indent = 0
- while true:
- if L.buf[pos] == ' ':
- inc(pos)
- inc(indent)
- elif L.buf[pos] == '#' and L.buf[pos+1] == '[':
- when defined(nimpretty):
- hasComment = true
- if tok.line < 0:
- tok.line = L.lineNumber
- commentIndent = indent
- skipMultiLineComment(L, tok, pos+2, false)
- pos = L.bufpos
- else:
- break
- tok.spacing.excl(tsLeading)
- when defined(nimpretty):
- if L.buf[pos] == '#' and tok.line < 0: commentIndent = indent
- if L.buf[pos] > ' ' and (L.buf[pos] != '#' or L.buf[pos+1] == '#'):
- tok.indent = indent
- L.currLineIndent = indent
- break
- of '#':
- # do not skip documentation comment:
- if L.buf[pos+1] == '#': break
- when defined(nimpretty):
- hasComment = true
- if tok.line < 0:
- tok.line = L.lineNumber
- if L.buf[pos+1] == '[':
- skipMultiLineComment(L, tok, pos+2, false)
- pos = L.bufpos
- else:
- tokenBegin(tok, pos)
- while L.buf[pos] notin {CR, LF, nimlexbase.EndOfFile}:
- when defined(nimpretty): tok.literal.add L.buf[pos]
- inc(pos)
- tokenEndIgnore(tok, pos+1)
- when defined(nimpretty):
- tok.commentOffsetB = L.offsetBase + pos + 1
- else:
- break # EndOfFile also leaves the loop
- tokenEndPrevious(tok, pos-1)
- L.bufpos = pos
- when defined(nimpretty):
- if hasComment:
- tok.commentOffsetB = L.offsetBase + pos - 1
- tok.tokType = tkComment
- tok.indent = commentIndent
- proc rawGetTok*(L: var Lexer, tok: var Token) =
- template atTokenEnd() {.dirty.} =
- when defined(nimsuggest):
- L.previousTokenEnd.line = L.tokenEnd.line
- L.previousTokenEnd.col = L.tokenEnd.col
- L.tokenEnd.line = tok.line.uint16
- L.tokenEnd.col = getColNumber(L, L.bufpos).int16
- # we attach the cursor to the last *strong* token
- if tok.tokType notin weakTokens:
- L.previousToken.line = tok.line.uint16
- L.previousToken.col = tok.col.int16
- reset(tok)
- if L.indentAhead >= 0:
- tok.indent = L.indentAhead
- L.currLineIndent = L.indentAhead
- L.indentAhead = -1
- else:
- tok.indent = -1
- skip(L, tok)
- when defined(nimpretty):
- if tok.tokType == tkComment:
- L.indentAhead = L.currLineIndent
- return
- let c = L.buf[L.bufpos]
- tok.line = L.lineNumber
- tok.col = getColNumber(L, L.bufpos)
- if c in SymStartChars - {'r', 'R'} - UnicodeOperatorStartChars:
- getSymbol(L, tok)
- else:
- case c
- of UnicodeOperatorStartChars:
- if unicodeOprLen(L.buf, L.bufpos)[0] != 0:
- getOperator(L, tok)
- else:
- getSymbol(L, tok)
- of '#':
- scanComment(L, tok)
- of '*':
- # '*:' is unfortunately a special case, because it is two tokens in
- # 'var v*: int'.
- if L.buf[L.bufpos+1] == ':' and L.buf[L.bufpos+2] notin OpChars:
- var h = 0 !& ord('*')
- endOperator(L, tok, L.bufpos+1, h)
- else:
- getOperator(L, tok)
- of ',':
- tok.tokType = tkComma
- inc(L.bufpos)
- of 'r', 'R':
- if L.buf[L.bufpos + 1] == '\"':
- inc(L.bufpos)
- getString(L, tok, raw)
- else:
- getSymbol(L, tok)
- of '(':
- inc(L.bufpos)
- if L.buf[L.bufpos] == '.' and L.buf[L.bufpos+1] != '.':
- tok.tokType = tkParDotLe
- inc(L.bufpos)
- else:
- tok.tokType = tkParLe
- when defined(nimsuggest):
- if L.fileIdx == L.config.m.trackPos.fileIndex and tok.col < L.config.m.trackPos.col and
- tok.line == L.config.m.trackPos.line.int and L.config.ideCmd == ideCon:
- L.config.m.trackPos.col = tok.col.int16
- of ')':
- tok.tokType = tkParRi
- inc(L.bufpos)
- of '[':
- inc(L.bufpos)
- if L.buf[L.bufpos] == '.' and L.buf[L.bufpos+1] != '.':
- tok.tokType = tkBracketDotLe
- inc(L.bufpos)
- elif L.buf[L.bufpos] == ':':
- tok.tokType = tkBracketLeColon
- inc(L.bufpos)
- else:
- tok.tokType = tkBracketLe
- of ']':
- tok.tokType = tkBracketRi
- inc(L.bufpos)
- of '.':
- when defined(nimsuggest):
- if L.fileIdx == L.config.m.trackPos.fileIndex and tok.col+1 == L.config.m.trackPos.col and
- tok.line == L.config.m.trackPos.line.int and L.config.ideCmd == ideSug:
- tok.tokType = tkDot
- L.config.m.trackPos.col = tok.col.int16
- inc(L.bufpos)
- atTokenEnd()
- return
- if L.buf[L.bufpos+1] == ']':
- tok.tokType = tkBracketDotRi
- inc(L.bufpos, 2)
- elif L.buf[L.bufpos+1] == '}':
- tok.tokType = tkCurlyDotRi
- inc(L.bufpos, 2)
- elif L.buf[L.bufpos+1] == ')':
- tok.tokType = tkParDotRi
- inc(L.bufpos, 2)
- else:
- getOperator(L, tok)
- of '{':
- inc(L.bufpos)
- if L.buf[L.bufpos] == '.' and L.buf[L.bufpos+1] != '.':
- tok.tokType = tkCurlyDotLe
- inc(L.bufpos)
- else:
- tok.tokType = tkCurlyLe
- of '}':
- tok.tokType = tkCurlyRi
- inc(L.bufpos)
- of ';':
- tok.tokType = tkSemiColon
- inc(L.bufpos)
- of '`':
- tok.tokType = tkAccent
- inc(L.bufpos)
- of '_':
- inc(L.bufpos)
- if L.buf[L.bufpos] notin SymChars+{'_'}:
- tok.tokType = tkSymbol
- tok.ident = L.cache.getIdent("_")
- else:
- tok.literal = $c
- tok.tokType = tkInvalid
- lexMessage(L, errGenerated, "invalid token: " & c & " (\\" & $(ord(c)) & ')')
- of '\"':
- # check for generalized raw string literal:
- let mode = if L.bufpos > 0 and L.buf[L.bufpos-1] in SymChars: generalized else: normal
- getString(L, tok, mode)
- if mode == generalized:
- # tkRStrLit -> tkGStrLit
- # tkTripleStrLit -> tkGTripleStrLit
- inc(tok.tokType, 2)
- of '\'':
- tok.tokType = tkCharLit
- getCharacter(L, tok)
- tok.tokType = tkCharLit
- of '0'..'9':
- getNumber(L, tok)
- let c = L.buf[L.bufpos]
- if c in SymChars+{'_'}:
- if c in UnicodeOperatorStartChars and
- unicodeOprLen(L.buf, L.bufpos)[0] != 0:
- discard
- else:
- lexMessage(L, errGenerated, "invalid token: no whitespace between number and identifier")
- of '-':
- if L.buf[L.bufpos+1] in {'0'..'9'} and
- (L.bufpos-1 == 0 or L.buf[L.bufpos-1] in UnaryMinusWhitelist):
- # x)-23 # binary minus
- # ,-23 # unary minus
- # \n-78 # unary minus? Yes.
- # =-3 # parsed as `=-` anyway
- getNumber(L, tok)
- let c = L.buf[L.bufpos]
- if c in SymChars+{'_'}:
- if c in UnicodeOperatorStartChars and
- unicodeOprLen(L.buf, L.bufpos)[0] != 0:
- discard
- else:
- lexMessage(L, errGenerated, "invalid token: no whitespace between number and identifier")
- else:
- getOperator(L, tok)
- else:
- if c in OpChars:
- getOperator(L, tok)
- elif c == nimlexbase.EndOfFile:
- tok.tokType = tkEof
- tok.indent = 0
- else:
- tok.literal = $c
- tok.tokType = tkInvalid
- lexMessage(L, errGenerated, "invalid token: " & c & " (\\" & $(ord(c)) & ')')
- inc(L.bufpos)
- atTokenEnd()
- proc getIndentWidth*(fileIdx: FileIndex, inputstream: PLLStream;
- cache: IdentCache; config: ConfigRef): int =
- result = 0
- var lex: Lexer = default(Lexer)
- var tok: Token = default(Token)
- openLexer(lex, fileIdx, inputstream, cache, config)
- var prevToken = tkEof
- while tok.tokType != tkEof:
- rawGetTok(lex, tok)
- if tok.indent > 0 and prevToken in {tkColon, tkEquals, tkType, tkConst, tkLet, tkVar, tkUsing}:
- result = tok.indent
- if result > 0: break
- prevToken = tok.tokType
- closeLexer(lex)
- proc getPrecedence*(ident: PIdent): int =
- ## assumes ident is binary operator already
- let
- tokType =
- if ident.id in ord(tokKeywordLow) - ord(tkSymbol)..ord(tokKeywordHigh) - ord(tkSymbol):
- TokType(ident.id + ord(tkSymbol))
- else: tkOpr
- tok = Token(ident: ident, tokType: tokType)
- getPrecedence(tok)
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