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- #
- # Nim's Runtime Library
- # (c) Copyright 2015 Nim Contributors
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- when defined(js):
- {.error: "This library needs to be compiled with a c-like backend, and depends on PCRE; See jsre for JS backend.".}
- ## What is NRE?
- ## ============
- ##
- ## A regular expression library for Nim using PCRE to do the hard work.
- ##
- ## For documentation on how to write patterns, there exists `the official PCRE
- ## pattern documentation
- ## <https://www.pcre.org/original/doc/html/pcrepattern.html>`_. You can also
- ## search the internet for a wide variety of third-party documentation and
- ## tools.
- ##
- ## .. warning:: If you love `sequtils.toSeq` we have bad news for you. This
- ## library doesn't work with it due to documented compiler limitations. As
- ## a workaround, use this:
- runnableExamples:
- # either `import std/nre except toSeq` or fully qualify `sequtils.toSeq`:
- import std/sequtils
- iterator iota(n: int): int =
- for i in 0..<n: yield i
- assert sequtils.toSeq(iota(3)) == @[0, 1, 2]
- ## .. note:: There are also alternative nimble packages such as [tinyre](https://github.com/khchen/tinyre)
- ## and [regex](https://github.com/nitely/nim-regex).
- ## Licencing
- ## ---------
- ##
- ## PCRE has `some additional terms`_ that you must agree to in order to use
- ## this module.
- ##
- ## .. _`some additional terms`: https://pcre.sourceforge.net/license.txt
- runnableExamples:
- import std/sugar
- let vowels = re"[aeoui]"
- let bounds = collect:
- for match in "moiga".findIter(vowels): match.matchBounds
- assert bounds == @[1 .. 1, 2 .. 2, 4 .. 4]
- from std/sequtils import toSeq
- let s = sequtils.toSeq("moiga".findIter(vowels))
- # fully qualified to avoid confusion with nre.toSeq
- assert s.len == 3
- let firstVowel = "foo".find(vowels)
- let hasVowel = firstVowel.isSome()
- assert hasVowel
- let matchBounds = firstVowel.get().captureBounds[-1]
- assert matchBounds.a == 1
- # as with module `re`, unless specified otherwise, `start` parameter in each
- # proc indicates where the scan starts, but outputs are relative to the start
- # of the input string, not to `start`:
- assert find("uxabc", re"(?<=x|y)ab", start = 1).get.captures[-1] == "ab"
- assert find("uxabc", re"ab", start = 3).isNone
- from std/pcre import nil
- import nre/private/util
- import std/tables
- from std/strutils import `%`
- import std/options
- from std/unicode import runeLenAt
- when defined(nimPreviewSlimSystem):
- import std/assertions
- export options
- type
- RegexDesc* = object
- pattern*: string
- pcreObj: ptr pcre.Pcre ## not nil
- pcreExtra: ptr pcre.ExtraData ## nil
- captureNameToId: Table[string, int]
- Regex* = ref RegexDesc
- ## Represents the pattern that things are matched against, constructed with
- ## `re(string)`. Examples: `re"foo"`, `re(r"(*ANYCRLF)(?x)foo #
- ## comment".`
- ##
- ## `pattern: string`
- ## : the string that was used to create the pattern. For details on how
- ## to write a pattern, please see `the official PCRE pattern
- ## documentation.
- ## <https://www.pcre.org/original/doc/html/pcrepattern.html>`_
- ##
- ## `captureCount: int`
- ## : the number of captures that the pattern has.
- ##
- ## `captureNameId: Table[string, int]`
- ## : a table from the capture names to their numeric id.
- ##
- ##
- ## Options
- ## .......
- ##
- ## The following options may appear anywhere in the pattern, and they affect
- ## the rest of it.
- ##
- ## - `(?i)` - case insensitive
- ## - `(?m)` - multi-line: `^` and `$` match the beginning and end of
- ## lines, not of the subject string
- ## - `(?s)` - `.` also matches newline (*dotall*)
- ## - `(?U)` - expressions are not greedy by default. `?` can be added
- ## to a qualifier to make it greedy
- ## - `(?x)` - whitespace and comments (`#`) are ignored (*extended*)
- ## - `(?X)` - character escapes without special meaning (`\w` vs.
- ## `\a`) are errors (*extra*)
- ##
- ## One or a combination of these options may appear only at the beginning
- ## of the pattern:
- ##
- ## - `(*UTF8)` - treat both the pattern and subject as UTF-8
- ## - `(*UCP)` - Unicode character properties; `\w` matches `я`
- ## - `(*U)` - a combination of the two options above
- ## - `(*FIRSTLINE*)` - fails if there is not a match on the first line
- ## - `(*NO_AUTO_CAPTURE)` - turn off auto-capture for groups;
- ## `(?<name>...)` can be used to capture
- ## - `(*CR)` - newlines are separated by `\r`
- ## - `(*LF)` - newlines are separated by `\n` (UNIX default)
- ## - `(*CRLF)` - newlines are separated by `\r\n` (Windows default)
- ## - `(*ANYCRLF)` - newlines are separated by any of the above
- ## - `(*ANY)` - newlines are separated by any of the above and Unicode
- ## newlines:
- ##
- ## single characters VT (vertical tab, U+000B), FF (form feed, U+000C),
- ## NEL (next line, U+0085), LS (line separator, U+2028), and PS
- ## (paragraph separator, U+2029). For the 8-bit library, the last two
- ## are recognized only in UTF-8 mode.
- ## — man pcre
- ##
- ## - `(*JAVASCRIPT_COMPAT)` - JavaScript compatibility
- ## - `(*NO_STUDY)` - turn off studying; study is enabled by default
- ##
- ## For more details on the leading option groups, see the `Option
- ## Setting <https://man7.org/linux/man-pages/man3/pcresyntax.3.html#OPTION_SETTING>`_
- ## and the `Newline
- ## Convention <https://man7.org/linux/man-pages/man3/pcresyntax.3.html#NEWLINE_CONVENTION>`_
- ## sections of the `PCRE syntax
- ## manual <https://man7.org/linux/man-pages/man3/pcresyntax.3.html>`_.
- ##
- ## Some of these options are not part of PCRE and are converted by nre
- ## into PCRE flags. These include `NEVER_UTF`, `ANCHORED`,
- ## `DOLLAR_ENDONLY`, `FIRSTLINE`, `NO_AUTO_CAPTURE`,
- ## `JAVASCRIPT_COMPAT`, `U`, `NO_STUDY`. In other PCRE wrappers, you
- ## will need to pass these as separate flags to PCRE.
- RegexMatch* = object
- ## Usually seen as Option[RegexMatch], it represents the result of an
- ## execution. On failure, it is none, on success, it is some.
- ##
- ## `pattern: Regex`
- ## : the pattern that is being matched
- ##
- ## `str: string`
- ## : the string that was matched against
- ##
- ## `captures[]: string`
- ## : the string value of whatever was captured at that id. If the value
- ## is invalid, then behavior is undefined. If the id is `-1`, then
- ## the whole match is returned. If the given capture was not matched,
- ## `nil` is returned. See examples for `match`.
- ##
- ## `captureBounds[]: HSlice[int, int]`
- ## : gets the bounds of the given capture according to the same rules as
- ## the above. If the capture is not filled, then `None` is returned.
- ## The bounds are both inclusive. See examples for `match`.
- ##
- ## `match: string`
- ## : the full text of the match.
- ##
- ## `matchBounds: HSlice[int, int]`
- ## : the bounds of the match, as in `captureBounds[]`
- ##
- ## `(captureBounds|captures).toTable`
- ## : returns a table with each named capture as a key.
- ##
- ## `(captureBounds|captures).toSeq`
- ## : returns all the captures by their number.
- ##
- ## `$: string`
- ## : same as `match`
- pattern*: Regex ## The regex doing the matching.
- ## Not nil.
- str*: string ## The string that was matched against.
- pcreMatchBounds: seq[HSlice[cint, cint]] ## First item is the bounds of the match
- ## Other items are the captures
- ## `a` is inclusive start, `b` is exclusive end
- Captures* = distinct RegexMatch
- CaptureBounds* = distinct RegexMatch
- RegexError* = ref object of CatchableError
- RegexInternalError* = ref object of RegexError
- ## Internal error in the module, this probably means that there is a bug
- InvalidUnicodeError* = ref object of RegexError
- ## Thrown when matching fails due to invalid unicode in strings
- pos*: int ## the location of the invalid unicode in bytes
- SyntaxError* = ref object of RegexError
- ## Thrown when there is a syntax error in the
- ## regular expression string passed in
- pos*: int ## the location of the syntax error in bytes
- pattern*: string ## the pattern that caused the problem
- StudyError* = ref object of RegexError
- ## Thrown when studying the regular expression fails
- ## for whatever reason. The message contains the error
- ## code.
- when defined(gcDestructors):
- when defined(nimAllowNonVarDestructor) and defined(nimPreviewNonVarDestructor):
- proc `=destroy`(pattern: RegexDesc) =
- `=destroy`(pattern.pattern)
- pcre.free_substring(cast[cstring](pattern.pcreObj))
- if pattern.pcreExtra != nil:
- pcre.free_study(pattern.pcreExtra)
- `=destroy`(pattern.captureNameToId)
- else:
- proc `=destroy`(pattern: var RegexDesc) =
- `=destroy`(pattern.pattern)
- pcre.free_substring(cast[cstring](pattern.pcreObj))
- if pattern.pcreExtra != nil:
- pcre.free_study(pattern.pcreExtra)
- `=destroy`(pattern.captureNameToId)
- else:
- proc destroyRegex(pattern: Regex) =
- `=destroy`(pattern.pattern)
- pcre.free_substring(cast[cstring](pattern.pcreObj))
- if pattern.pcreExtra != nil:
- pcre.free_study(pattern.pcreExtra)
- `=destroy`(pattern.captureNameToId)
- proc getinfo[T](pattern: Regex, opt: cint): T =
- let retcode = pcre.fullinfo(pattern.pcreObj, pattern.pcreExtra, opt, addr result)
- if retcode < 0:
- # XXX Error message that doesn't expose implementation details
- raise newException(FieldDefect, "Invalid getinfo for $1, errno $2" % [$opt, $retcode])
- proc getNameToNumberTable(pattern: Regex): Table[string, int] =
- let entryCount = getinfo[cint](pattern, pcre.INFO_NAMECOUNT)
- let entrySize = getinfo[cint](pattern, pcre.INFO_NAMEENTRYSIZE)
- let table = cast[ptr UncheckedArray[uint8]](
- getinfo[int](pattern, pcre.INFO_NAMETABLE))
- result = initTable[string, int]()
- for i in 0 ..< entryCount:
- let pos = i * entrySize
- let num = (int(table[pos]) shl 8) or int(table[pos + 1]) - 1
- var name = ""
- var idx = 2
- while table[pos + idx] != 0:
- name.add(char(table[pos + idx]))
- idx += 1
- result[name] = num
- proc initRegex(pattern: string, flags: int, study = true): Regex =
- when defined(gcDestructors):
- result = Regex()
- else:
- new(result, destroyRegex)
- result.pattern = pattern
- var errorMsg: cstring
- var errOffset: cint
- result.pcreObj = pcre.compile(cstring(pattern),
- # better hope int is at least 4 bytes..
- cint(flags), addr errorMsg,
- addr errOffset, nil)
- if result.pcreObj == nil:
- # failed to compile
- raise SyntaxError(msg: $errorMsg, pos: errOffset, pattern: pattern)
- if study:
- var options: cint = 0
- var hasJit: cint
- if pcre.config(pcre.CONFIG_JIT, addr hasJit) == 0:
- if hasJit == 1'i32:
- options = pcre.STUDY_JIT_COMPILE
- result.pcreExtra = pcre.study(result.pcreObj, options, addr errorMsg)
- if errorMsg != nil:
- raise StudyError(msg: $errorMsg)
- result.captureNameToId = result.getNameToNumberTable()
- proc captureCount*(pattern: Regex): int =
- return getinfo[cint](pattern, pcre.INFO_CAPTURECOUNT)
- proc captureNameId*(pattern: Regex): Table[string, int] =
- return pattern.captureNameToId
- proc matchesCrLf(pattern: Regex): bool =
- let flags = uint32(getinfo[culong](pattern, pcre.INFO_OPTIONS))
- let newlineFlags = flags and (pcre.NEWLINE_CRLF or
- pcre.NEWLINE_ANY or
- pcre.NEWLINE_ANYCRLF)
- if newlineFlags > 0u32:
- return true
- # get flags from build config
- var confFlags: cint
- if pcre.config(pcre.CONFIG_NEWLINE, addr confFlags) != 0:
- assert(false, "CONFIG_NEWLINE apparently got screwed up")
- case confFlags
- of 13: return false
- of 10: return false
- of (13 shl 8) or 10: return true
- of -2: return true
- of -1: return true
- else: return false
- func captureBounds*(pattern: RegexMatch): CaptureBounds = return CaptureBounds(pattern)
- func captures*(pattern: RegexMatch): Captures = return Captures(pattern)
- func contains*(pattern: CaptureBounds, i: int): bool =
- let pattern = RegexMatch(pattern)
- pattern.pcreMatchBounds[i + 1].a != -1
- func contains*(pattern: Captures, i: int): bool =
- i in CaptureBounds(pattern)
- func `[]`*(pattern: CaptureBounds, i: int): HSlice[int, int] =
- let pattern = RegexMatch(pattern)
- if not (i in pattern.captureBounds):
- raise newException(IndexDefect, "Group '" & $i & "' was not captured")
- let bounds = pattern.pcreMatchBounds[i + 1]
- int(bounds.a)..int(bounds.b-1)
- func `[]`*(pattern: Captures, i: int): string =
- let pattern = RegexMatch(pattern)
- let bounds = pattern.captureBounds[i]
- pattern.str.substr(bounds.a, bounds.b)
- func match*(pattern: RegexMatch): string =
- return pattern.captures[-1]
- func matchBounds*(pattern: RegexMatch): HSlice[int, int] =
- return pattern.captureBounds[-1]
- func contains*(pattern: CaptureBounds, name: string): bool =
- let pattern = RegexMatch(pattern)
- let nameToId = pattern.pattern.captureNameToId
- if not (name in nameToId):
- return false
- nameToId[name] in pattern.captureBounds
- func contains*(pattern: Captures, name: string): bool =
- name in CaptureBounds(pattern)
- func checkNamedCaptured(pattern: RegexMatch, name: string) =
- if not (name in pattern.captureBounds):
- raise newException(KeyError, "Group '" & name & "' was not captured")
- func `[]`*(pattern: CaptureBounds, name: string): HSlice[int, int] =
- let pattern = RegexMatch(pattern)
- checkNamedCaptured(pattern, name)
- {.noSideEffect.}:
- result = pattern.captureBounds[pattern.pattern.captureNameToId[name]]
- func `[]`*(pattern: Captures, name: string): string =
- let pattern = RegexMatch(pattern)
- checkNamedCaptured(pattern, name)
- {.noSideEffect.}:
- result = pattern.captures[pattern.pattern.captureNameToId[name]]
- template toTableImpl() {.dirty.} =
- for key in RegexMatch(pattern).pattern.captureNameId.keys:
- if key in pattern:
- result[key] = pattern[key]
- func toTable*(pattern: Captures): Table[string, string] =
- result = initTable[string, string]()
- toTableImpl()
- func toTable*(pattern: CaptureBounds): Table[string, HSlice[int, int]] =
- result = initTable[string, HSlice[int, int]]()
- toTableImpl()
- template itemsImpl() {.dirty.} =
- for i in 0 ..< RegexMatch(pattern).pattern.captureCount:
- # done in this roundabout way to avoid multiple yields (potential code
- # bloat)
- let nextYieldVal = if i in pattern:
- some(pattern[i])
- else:
- default
- yield nextYieldVal
- iterator items*(pattern: CaptureBounds,
- default = none(HSlice[int, int])): Option[HSlice[int, int]] =
- itemsImpl()
- iterator items*(pattern: Captures,
- default: Option[string] = none(string)): Option[string] =
- itemsImpl()
- proc toSeq*(pattern: CaptureBounds,
- default = none(HSlice[int, int])): seq[Option[HSlice[int, int]]] =
- result = @[]
- for it in pattern.items(default): result.add it
- proc toSeq*(pattern: Captures,
- default: Option[string] = none(string)): seq[Option[string]] =
- result = @[]
- for it in pattern.items(default): result.add it
- proc `$`*(pattern: RegexMatch): string =
- return pattern.captures[-1]
- proc `==`*(a, b: Regex): bool =
- if not a.isNil and not b.isNil:
- return a.pattern == b.pattern and
- a.pcreObj == b.pcreObj and
- a.pcreExtra == b.pcreExtra
- else:
- return system.`==`(a, b)
- proc `==`*(a, b: RegexMatch): bool =
- return a.pattern == b.pattern and
- a.str == b.str
- const PcreOptions = {
- "NEVER_UTF": pcre.NEVER_UTF,
- "ANCHORED": pcre.ANCHORED,
- "DOLLAR_ENDONLY": pcre.DOLLAR_ENDONLY,
- "FIRSTLINE": pcre.FIRSTLINE,
- "NO_AUTO_CAPTURE": pcre.NO_AUTO_CAPTURE,
- "JAVASCRIPT_COMPAT": pcre.JAVASCRIPT_COMPAT,
- "U": pcre.UTF8 or pcre.UCP
- }.toTable
- # Options that are supported inside regular expressions themselves
- const SkipOptions = [
- "LIMIT_MATCH=", "LIMIT_RECURSION=", "NO_AUTO_POSSESS", "NO_START_OPT",
- "UTF8", "UTF16", "UTF32", "UTF", "UCP",
- "CR", "LF", "CRLF", "ANYCRLF", "ANY", "BSR_ANYCRLF", "BSR_UNICODE"
- ]
- proc extractOptions(pattern: string): tuple[pattern: string, flags: int, study: bool] =
- result = ("", 0, true)
- var optionStart = 0
- var equals = false
- for i, c in pattern:
- if optionStart == i:
- if c != '(':
- break
- optionStart = i
- elif optionStart == i-1:
- if c != '*':
- break
- elif c == ')':
- let name = pattern[optionStart+2 .. i-1]
- if equals or name in SkipOptions:
- result.pattern.add pattern[optionStart .. i]
- elif PcreOptions.hasKey name:
- result.flags = result.flags or PcreOptions[name]
- elif name == "NO_STUDY":
- result.study = false
- else:
- break
- optionStart = i+1
- equals = false
- elif not equals:
- if c == '=':
- equals = true
- if pattern[optionStart+2 .. i] notin SkipOptions:
- break
- elif c notin {'A'..'Z', '0'..'9', '_'}:
- break
- result.pattern.add pattern[optionStart .. pattern.high]
- proc re*(pattern: string): Regex =
- let (pattern, flags, study) = extractOptions(pattern)
- initRegex(pattern, flags, study)
- proc matchImpl(str: string, pattern: Regex, start, endpos: int, flags: int): Option[RegexMatch] =
- var myResult = RegexMatch(pattern: pattern, str: str)
- # See PCRE man pages.
- # 2x capture count to make room for start-end pairs
- # 1x capture count as slack space for PCRE
- let vecsize = (pattern.captureCount() + 1) * 3
- # div 2 because each element is 2 cints long
- # plus 1 because we need the ceiling, not the floor
- myResult.pcreMatchBounds = newSeq[HSlice[cint, cint]]((vecsize + 1) div 2)
- myResult.pcreMatchBounds.setLen(vecsize div 3)
- let strlen = if endpos == int.high: str.len else: endpos+1
- doAssert(strlen <= str.len) # don't want buffer overflows
- let execRet = pcre.exec(pattern.pcreObj,
- pattern.pcreExtra,
- cstring(str),
- cint(strlen),
- cint(start),
- cint(flags),
- cast[ptr cint](addr myResult.pcreMatchBounds[0]),
- cint(vecsize))
- if execRet >= 0:
- return some(myResult)
- case execRet:
- of pcre.ERROR_NOMATCH:
- return none(RegexMatch)
- of pcre.ERROR_NULL:
- raise newException(AccessViolationDefect, "Expected non-null parameters")
- of pcre.ERROR_BADOPTION:
- raise RegexInternalError(msg: "Unknown pattern flag. Either a bug or " &
- "outdated PCRE.")
- of pcre.ERROR_BADUTF8, pcre.ERROR_SHORTUTF8, pcre.ERROR_BADUTF8_OFFSET:
- raise InvalidUnicodeError(msg: "Invalid unicode byte sequence",
- pos: myResult.pcreMatchBounds[0].a)
- else:
- raise RegexInternalError(msg: "Unknown internal error: " & $execRet)
- proc match*(str: string, pattern: Regex, start = 0, endpos = int.high): Option[RegexMatch] =
- ## Like `find(...)<#find,string,Regex,int>`_, but anchored to the start of the
- ## string.
- runnableExamples:
- assert "foo".match(re"f").isSome
- assert "foo".match(re"o").isNone
- assert "abc".match(re"(\w)").get.captures[0] == "a"
- assert "abc".match(re"(?<letter>\w)").get.captures["letter"] == "a"
- assert "abc".match(re"(\w)\w").get.captures[-1] == "ab"
- assert "abc".match(re"(\w)").get.captureBounds[0] == 0 .. 0
- assert 0 in "abc".match(re"(\w)").get.captureBounds
- assert "abc".match(re"").get.captureBounds[-1] == 0 .. -1
- assert "abc".match(re"abc").get.captureBounds[-1] == 0 .. 2
- return str.matchImpl(pattern, start, endpos, pcre.ANCHORED)
- iterator findIter*(str: string, pattern: Regex, start = 0, endpos = int.high): RegexMatch =
- ## Works the same as `find(...)<#find,string,Regex,int>`_, but finds every
- ## non-overlapping match:
- runnableExamples:
- import std/sugar
- assert collect(for a in "2222".findIter(re"22"): a.match) == @["22", "22"]
- # not @["22", "22", "22"]
- ## Arguments are the same as `find(...)<#find,string,Regex,int>`_
- ##
- ## Variants:
- ##
- ## - `proc findAll(...)` returns a `seq[string]`
- # see pcredemo for explanation => https://www.pcre.org/original/doc/html/pcredemo.html
- let matchesCrLf = pattern.matchesCrLf()
- let unicode = uint32(getinfo[culong](pattern, pcre.INFO_OPTIONS) and
- pcre.UTF8) > 0u32
- let strlen = if endpos == int.high: str.len else: endpos+1
- var offset = start
- var match: Option[RegexMatch]
- var neverMatched = true
- while true:
- var flags = 0
- if match.isSome and
- match.get.matchBounds.a > match.get.matchBounds.b:
- # 0-len match
- flags = pcre.NOTEMPTY_ATSTART
- match = str.matchImpl(pattern, offset, endpos, flags)
- if match.isNone:
- # either the end of the input or the string
- # cannot be split here - we also need to bail
- # if we've never matched and we've already tried to...
- if flags == 0 or offset >= strlen or neverMatched: # All matches found
- break
- if matchesCrLf and offset < (str.len - 1) and
- str[offset] == '\r' and str[offset + 1] == '\L':
- # if PCRE treats CrLf as newline, skip both at the same time
- offset += 2
- elif unicode:
- # XXX what about invalid unicode?
- offset += str.runeLenAt(offset)
- assert(offset <= strlen)
- else:
- offset += 1
- else:
- neverMatched = false
- offset = match.get.matchBounds.b + 1
- yield match.get
- proc find*(str: string, pattern: Regex, start = 0, endpos = int.high): Option[RegexMatch] =
- ## Finds the given pattern in the string between the end and start
- ## positions.
- ##
- ## `start`
- ## : The start point at which to start matching. `|abc` is `0`;
- ## `a|bc` is `1`
- ##
- ## `endpos`
- ## : The maximum index for a match; `int.high` means the end of the
- ## string, otherwise it’s an inclusive upper bound.
- return str.matchImpl(pattern, start, endpos, 0)
- proc findAll*(str: string, pattern: Regex, start = 0, endpos = int.high): seq[string] =
- result = @[]
- for match in str.findIter(pattern, start, endpos):
- result.add(match.match)
- proc contains*(str: string, pattern: Regex, start = 0, endpos = int.high): bool =
- ## Determine if the string contains the given pattern between the end and
- ## start positions:
- ## This function is equivalent to `isSome(str.find(pattern, start, endpos))`.
- runnableExamples:
- assert "abc".contains(re"bc")
- assert not "abc".contains(re"cd")
- assert not "abc".contains(re"a", start = 1)
- return isSome(str.find(pattern, start, endpos))
- proc split*(str: string, pattern: Regex, maxSplit = -1, start = 0): seq[string] =
- ## Splits the string with the given regex. This works according to the
- ## rules that Perl and Javascript use.
- ##
- ## `start` behaves the same as in `find(...)<#find,string,Regex,int>`_.
- ##
- runnableExamples:
- # - If the match is zero-width, then the string is still split:
- assert "123".split(re"") == @["1", "2", "3"]
- # - If the pattern has a capture in it, it is added after the string
- # split:
- assert "12".split(re"(\d)") == @["", "1", "", "2", ""]
- # - If `maxsplit != -1`, then the string will only be split
- # `maxsplit - 1` times. This means that there will be `maxsplit`
- # strings in the output seq.
- assert "1.2.3".split(re"\.", maxsplit = 2) == @["1", "2.3"]
- result = @[]
- var lastIdx = start
- var splits = 0
- var bounds = 0 .. -1
- var never_ran = true
- for match in str.findIter(pattern, start = start):
- never_ran = false
- # bounds are inclusive:
- #
- # 0123456
- # ^^^
- # (1, 3)
- bounds = match.matchBounds
- # "12".split("") would be @["", "1", "2"], but
- # if we skip an empty first match, it's the correct
- # @["1", "2"]
- if bounds.a <= bounds.b or bounds.a > start:
- result.add(str.substr(lastIdx, bounds.a - 1))
- splits += 1
- lastIdx = bounds.b + 1
- for cap in match.captures:
- # if there are captures, include them in the result
- if cap.isSome:
- result.add(cap.get)
- if splits == maxSplit - 1:
- break
- # "12".split("\b") would be @["1", "2", ""], but
- # if we skip an empty last match, it's the correct
- # @["1", "2"]
- # If matches were never found, then the input string is the result
- if bounds.a <= bounds.b or bounds.b < str.high or never_ran:
- # last match: Each match takes the previous substring,
- # but "1 2".split(/ /) needs to return @["1", "2"].
- # This handles "2"
- result.add(str.substr(bounds.b + 1, str.high))
- template replaceImpl(str: string, pattern: Regex,
- replacement: untyped) {.dirty.} =
- # XXX seems very similar to split, maybe I can reduce code duplication
- # somehow?
- result = ""
- var lastIdx = 0
- for match {.inject.} in str.findIter(pattern):
- let bounds = match.matchBounds
- result.add(str.substr(lastIdx, bounds.a - 1))
- let nextVal = replacement
- result.add(nextVal)
- lastIdx = bounds.b + 1
- result.add(str.substr(lastIdx, str.len - 1))
- return result
- proc replace*(str: string, pattern: Regex,
- subproc: proc (match: RegexMatch): string): string =
- ## Replaces each match of Regex in the string with `subproc`, which should
- ## never be or return `nil`.
- ##
- ## If `subproc` is a `proc (RegexMatch): string`, then it is executed with
- ## each match and the return value is the replacement value.
- ##
- ## If `subproc` is a `proc (string): string`, then it is executed with the
- ## full text of the match and the return value is the replacement value.
- ##
- ## If `subproc` is a string, the syntax is as follows:
- ##
- ## - `$$` - literal `$`
- ## - `$123` - capture number `123`
- ## - `$foo` - named capture `foo`
- ## - `${foo}` - same as above
- ## - `$1$#` - first and second captures
- ## - `$#` - first capture
- ## - `$0` - full match
- ##
- ## If a given capture is missing, `IndexDefect` thrown for un-named captures
- ## and `KeyError` for named captures.
- replaceImpl(str, pattern, subproc(match))
- proc replace*(str: string, pattern: Regex,
- subproc: proc (match: string): string): string =
- replaceImpl(str, pattern, subproc(match.match))
- proc replace*(str: string, pattern: Regex, sub: string): string =
- # - 1 because the string numbers are 0-indexed
- replaceImpl(str, pattern,
- formatStr(sub, match.captures[name], match.captures[id - 1]))
- proc escapeRe*(str: string): string {.gcsafe.} =
- ## Escapes the string so it doesn't match any special characters.
- ## Incompatible with the Extra flag (`X`).
- ##
- ## Escaped char: `\ + * ? [ ^ ] $ ( ) { } = ! < > | : -`
- runnableExamples:
- assert escapeRe("fly+wind") == "fly\\+wind"
- assert escapeRe("!") == "\\!"
- assert escapeRe("nim*") == "nim\\*"
- #([\\+*?[^\]$(){}=!<>|:-])
- const SpecialCharMatcher = {'\\', '+', '*', '?', '[', '^', ']', '$', '(',
- ')', '{', '}', '=', '!', '<', '>', '|', ':',
- '-'}
- for c in items(str):
- case c
- of SpecialCharMatcher:
- result.add("\\")
- result.add(c)
- else:
- result.add(c)
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