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- #
- #
- # Nim's Runtime Library
- # (c) Copyright 2012 Andreas Rumpf
- #
- # 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.".}
- ## Regular expression support for Nim.
- ##
- ## This module is implemented by providing a wrapper around the
- ## `PCRE (Perl-Compatible Regular Expressions) <http://www.pcre.org>`_
- ## C library. This means that your application will depend on the PCRE
- ## library's licence when using this module, which should not be a problem
- ## though.
- ##
- ## .. note:: There are also alternative nimble packages such as [tinyre](https://github.com/khchen/tinyre)
- ## and [regex](https://github.com/nitely/nim-regex).
- ##
- ## PCRE's licence follows:
- ##
- ## .. include:: ../../doc/regexprs.txt
- ##
- runnableExamples:
- ## 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`:
- doAssert find("uxabc", re"(?<=x|y)ab", start = 1) == 2 # lookbehind assertion
- doAssert find("uxabc", re"ab", start = 3) == -1 # we're past `start` => not found
- doAssert not match("xabc", re"^abc$", start = 1)
- # can't match start of string since we're starting at 1
- import
- pcre, strutils, rtarrays
- when defined(nimPreviewSlimSystem):
- import std/syncio
- const
- MaxSubpatterns* = 20
- ## defines the maximum number of subpatterns that can be captured.
- ## This limit still exists for `replacef` and `parallelReplace`.
- type
- RegexFlag* = enum ## options for regular expressions
- reIgnoreCase = 0, ## do caseless matching
- reMultiLine = 1, ## `^` and `$` match newlines within data
- reDotAll = 2, ## `.` matches anything including NL
- reExtended = 3, ## ignore whitespace and `#` comments
- reStudy = 4 ## study the expression (may be omitted if the
- ## expression will be used only once)
- RegexDesc = object
- h: ptr Pcre
- e: ptr ExtraData
- Regex* = ref RegexDesc ## a compiled regular expression
- RegexError* = object of ValueError
- ## is raised if the pattern is no valid regular expression.
- when defined(gcDestructors):
- proc `=destroy`(x: var RegexDesc) =
- pcre.free_substring(cast[cstring](x.h))
- if not isNil(x.e):
- pcre.free_study(x.e)
- proc raiseInvalidRegex(msg: string) {.noinline, noreturn.} =
- var e: ref RegexError
- new(e)
- e.msg = msg
- raise e
- proc rawCompile(pattern: string, flags: cint): ptr Pcre =
- var
- msg: cstring = ""
- offset: cint = 0
- result = pcre.compile(pattern, flags, addr(msg), addr(offset), nil)
- if result == nil:
- raiseInvalidRegex($msg & "\n" & pattern & "\n" & spaces(offset) & "^\n")
- proc finalizeRegEx(x: Regex) =
- # XXX This is a hack, but PCRE does not export its "free" function properly.
- # Sigh. The hack relies on PCRE's implementation (see `pcre_get.c`).
- # Fortunately the implementation is unlikely to change.
- pcre.free_substring(cast[cstring](x.h))
- if not isNil(x.e):
- pcre.free_study(x.e)
- proc re*(s: string, flags = {reStudy}): Regex =
- ## Constructor of regular expressions.
- ##
- ## Note that Nim's
- ## extended raw string literals support the syntax `re"[abc]"` as
- ## a short form for `re(r"[abc]")`. Also note that since this
- ## compiles the regular expression, which is expensive, you should
- ## avoid putting it directly in the arguments of the functions like
- ## the examples show below if you plan to use it a lot of times, as
- ## this will hurt performance immensely. (e.g. outside a loop, ...)
- when defined(gcDestructors):
- result = Regex()
- else:
- new(result, finalizeRegEx)
- result.h = rawCompile(s, cast[cint](flags - {reStudy}))
- if reStudy in flags:
- var msg: cstring = ""
- var options: cint = 0
- var hasJit: cint = 0
- if pcre.config(pcre.CONFIG_JIT, addr hasJit) == 0:
- if hasJit == 1'i32:
- options = pcre.STUDY_JIT_COMPILE
- result.e = pcre.study(result.h, options, addr msg)
- if not isNil(msg): raiseInvalidRegex($msg)
- proc rex*(s: string, flags = {reStudy, reExtended}): Regex =
- ## Constructor for extended regular expressions.
- ##
- ## The extended means that comments starting with `#` and
- ## whitespace are ignored.
- result = re(s, flags)
- proc bufSubstr(b: cstring, sPos, ePos: int): string {.inline.} =
- ## Return a Nim string built from a slice of a cstring buffer.
- ## Don't assume cstring is '\0' terminated
- let sz = ePos - sPos
- result = newString(sz+1)
- copyMem(addr(result[0]), unsafeAddr(b[sPos]), sz)
- result.setLen(sz)
- proc matchOrFind(buf: cstring, pattern: Regex, matches: var openArray[string],
- start, bufSize, flags: cint): cint =
- var
- rtarray = initRtArray[cint]((matches.len+1)*3)
- rawMatches = rtarray.getRawData
- res = pcre.exec(pattern.h, pattern.e, buf, bufSize, start, flags,
- cast[ptr cint](rawMatches), (matches.len+1).cint*3)
- if res < 0'i32: return res
- for i in 1..int(res)-1:
- var a = rawMatches[i * 2]
- var b = rawMatches[i * 2 + 1]
- if a >= 0'i32:
- matches[i-1] = bufSubstr(buf, int(a), int(b))
- else: matches[i-1] = ""
- return rawMatches[1] - rawMatches[0]
- const MaxReBufSize* = high(cint)
- ## Maximum PCRE (API 1) buffer start/size equal to `high(cint)`, which even
- ## for 64-bit systems can be either 2`31`:sup:-1 or 2`63`:sup:-1.
- proc findBounds*(buf: cstring, pattern: Regex, matches: var openArray[string],
- start = 0, bufSize: int): tuple[first, last: int] =
- ## returns the starting position and end position of `pattern` in `buf`
- ## (where `buf` has length `bufSize` and is not necessarily `'\0'` terminated),
- ## and the captured
- ## substrings in the array `matches`. If it does not match, nothing
- ## is written into `matches` and `(-1,0)` is returned.
- ##
- ## Note: The memory for `matches` needs to be allocated before this function is
- ## called, otherwise it will just remain empty.
- var
- rtarray = initRtArray[cint]((matches.len+1)*3)
- rawMatches = rtarray.getRawData
- res = pcre.exec(pattern.h, pattern.e, buf, bufSize.cint, start.cint, 0'i32,
- cast[ptr cint](rawMatches), (matches.len+1).cint*3)
- if res < 0'i32: return (-1, 0)
- for i in 1..int(res)-1:
- var a = rawMatches[i * 2]
- var b = rawMatches[i * 2 + 1]
- if a >= 0'i32: matches[i-1] = bufSubstr(buf, int(a), int(b))
- else: matches[i-1] = ""
- return (rawMatches[0].int, rawMatches[1].int - 1)
- proc findBounds*(s: string, pattern: Regex, matches: var openArray[string],
- start = 0): tuple[first, last: int] {.inline.} =
- ## returns the starting position and end position of `pattern` in `s`
- ## and the captured substrings in the array `matches`.
- ## If it does not match, nothing
- ## is written into `matches` and `(-1,0)` is returned.
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- runnableExamples:
- var matches = newSeq[string](1)
- let (first, last) = findBounds("Hello World", re"(W\w+)", matches)
- doAssert first == 6
- doAssert last == 10
- doAssert matches[0] == "World"
- result = findBounds(cstring(s), pattern, matches,
- min(start, MaxReBufSize), min(s.len, MaxReBufSize))
- proc findBounds*(buf: cstring, pattern: Regex,
- matches: var openArray[tuple[first, last: int]],
- start = 0, bufSize: int): tuple[first, last: int] =
- ## returns the starting position and end position of `pattern` in `buf`
- ## (where `buf` has length `bufSize` and is not necessarily `'\0'` terminated),
- ## and the captured substrings in the array `matches`.
- ## If it does not match, nothing is written into `matches` and
- ## `(-1,0)` is returned.
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- var
- rtarray = initRtArray[cint]((matches.len+1)*3)
- rawMatches = rtarray.getRawData
- res = pcre.exec(pattern.h, pattern.e, buf, bufSize.cint, start.cint, 0'i32,
- cast[ptr cint](rawMatches), (matches.len+1).cint*3)
- if res < 0'i32: return (-1, 0)
- for i in 1..int(res)-1:
- var a = rawMatches[i * 2]
- var b = rawMatches[i * 2 + 1]
- if a >= 0'i32: matches[i-1] = (int(a), int(b)-1)
- else: matches[i-1] = (-1,0)
- return (rawMatches[0].int, rawMatches[1].int - 1)
- proc findBounds*(s: string, pattern: Regex,
- matches: var openArray[tuple[first, last: int]],
- start = 0): tuple[first, last: int] {.inline.} =
- ## returns the starting position and end position of `pattern` in `s`
- ## and the captured substrings in the array `matches`.
- ## If it does not match, nothing is written into `matches` and
- ## `(-1,0)` is returned.
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- runnableExamples:
- var matches = newSeq[tuple[first, last: int]](1)
- let (first, last) = findBounds("Hello World", re"(\w+)", matches)
- doAssert first == 0
- doAssert last == 4
- doAssert matches[0] == (0, 4)
- result = findBounds(cstring(s), pattern, matches,
- min(start, MaxReBufSize), min(s.len, MaxReBufSize))
- proc findBoundsImpl(buf: cstring, pattern: Regex,
- start = 0, bufSize = 0, flags = 0): tuple[first, last: int] =
- var rtarray = initRtArray[cint](3)
- let rawMatches = rtarray.getRawData
- let res = pcre.exec(pattern.h, pattern.e, buf, bufSize.cint, start.cint, flags.int32,
- cast[ptr cint](rawMatches), 3)
- if res < 0'i32:
- result = (-1, 0)
- else:
- result = (int(rawMatches[0]), int(rawMatches[1]-1))
- proc findBounds*(buf: cstring, pattern: Regex,
- start = 0, bufSize: int): tuple[first, last: int] =
- ## returns the `first` and `last` position of `pattern` in `buf`,
- ## where `buf` has length `bufSize` (not necessarily `'\0'` terminated).
- ## If it does not match, `(-1,0)` is returned.
- var
- rtarray = initRtArray[cint](3)
- rawMatches = rtarray.getRawData
- res = pcre.exec(pattern.h, pattern.e, buf, bufSize.cint, start.cint, 0'i32,
- cast[ptr cint](rawMatches), 3)
- if res < 0'i32: return (int(res), 0)
- return (int(rawMatches[0]), int(rawMatches[1]-1))
- proc findBounds*(s: string, pattern: Regex,
- start = 0): tuple[first, last: int] {.inline.} =
- ## returns the `first` and `last` position of `pattern` in `s`.
- ## If it does not match, `(-1,0)` is returned.
- ##
- ## Note: there is a speed improvement if the matches do not need to be captured.
- runnableExamples:
- assert findBounds("01234abc89", re"abc") == (5,7)
- result = findBounds(cstring(s), pattern,
- min(start, MaxReBufSize), min(s.len, MaxReBufSize))
- proc matchOrFind(buf: cstring, pattern: Regex, start, bufSize: int, flags: cint): cint =
- var
- rtarray = initRtArray[cint](3)
- rawMatches = rtarray.getRawData
- result = pcre.exec(pattern.h, pattern.e, buf, bufSize.cint, start.cint, flags,
- cast[ptr cint](rawMatches), 3)
- if result >= 0'i32:
- result = rawMatches[1] - rawMatches[0]
- proc matchLen*(s: string, pattern: Regex, matches: var openArray[string],
- start = 0): int {.inline.} =
- ## the same as `match`, but it returns the length of the match,
- ## if there is no match, `-1` is returned. Note that a match length
- ## of zero can happen.
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- result = matchOrFind(cstring(s), pattern, matches, start.cint, s.len.cint, pcre.ANCHORED)
- proc matchLen*(buf: cstring, pattern: Regex, matches: var openArray[string],
- start = 0, bufSize: int): int {.inline.} =
- ## the same as `match`, but it returns the length of the match,
- ## if there is no match, `-1` is returned. Note that a match length
- ## of zero can happen.
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- return matchOrFind(buf, pattern, matches, start.cint, bufSize.cint, pcre.ANCHORED)
- proc matchLen*(s: string, pattern: Regex, start = 0): int {.inline.} =
- ## the same as `match`, but it returns the length of the match,
- ## if there is no match, `-1` is returned. Note that a match length
- ## of zero can happen.
- ##
- runnableExamples:
- doAssert matchLen("abcdefg", re"cde", 2) == 3
- doAssert matchLen("abcdefg", re"abcde") == 5
- doAssert matchLen("abcdefg", re"cde") == -1
- result = matchOrFind(cstring(s), pattern, start.cint, s.len.cint, pcre.ANCHORED)
- proc matchLen*(buf: cstring, pattern: Regex, start = 0, bufSize: int): int {.inline.} =
- ## the same as `match`, but it returns the length of the match,
- ## if there is no match, `-1` is returned. Note that a match length
- ## of zero can happen.
- result = matchOrFind(buf, pattern, start.cint, bufSize, pcre.ANCHORED)
- proc match*(s: string, pattern: Regex, start = 0): bool {.inline.} =
- ## returns `true` if `s[start..]` matches the `pattern`.
- result = matchLen(cstring(s), pattern, start, s.len) != -1
- proc match*(s: string, pattern: Regex, matches: var openArray[string],
- start = 0): bool {.inline.} =
- ## returns `true` if `s[start..]` matches the `pattern` and
- ## the captured substrings in the array `matches`. If it does not
- ## match, nothing is written into `matches` and `false` is
- ## returned.
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- runnableExamples:
- import std/sequtils
- var matches: array[2, string]
- if match("abcdefg", re"c(d)ef(g)", matches, 2):
- doAssert toSeq(matches) == @["d", "g"]
- result = matchLen(cstring(s), pattern, matches, start, s.len) != -1
- proc match*(buf: cstring, pattern: Regex, matches: var openArray[string],
- start = 0, bufSize: int): bool {.inline.} =
- ## returns `true` if `buf[start..<bufSize]` matches the `pattern` and
- ## the captured substrings in the array `matches`. If it does not
- ## match, nothing is written into `matches` and `false` is
- ## returned.
- ## `buf` has length `bufSize` (not necessarily `'\0'` terminated).
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- result = matchLen(buf, pattern, matches, start, bufSize) != -1
- proc find*(buf: cstring, pattern: Regex, matches: var openArray[string],
- start = 0, bufSize: int): int =
- ## returns the starting position of `pattern` in `buf` and the captured
- ## substrings in the array `matches`. If it does not match, nothing
- ## is written into `matches` and `-1` is returned.
- ## `buf` has length `bufSize` (not necessarily `'\0'` terminated).
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- var
- rtarray = initRtArray[cint]((matches.len+1)*3)
- rawMatches = rtarray.getRawData
- res = pcre.exec(pattern.h, pattern.e, buf, bufSize.cint, start.cint, 0'i32,
- cast[ptr cint](rawMatches), (matches.len+1).cint*3)
- if res < 0'i32: return res
- for i in 1..int(res)-1:
- var a = rawMatches[i * 2]
- var b = rawMatches[i * 2 + 1]
- if a >= 0'i32: matches[i-1] = bufSubstr(buf, int(a), int(b))
- else: matches[i-1] = ""
- return rawMatches[0]
- proc find*(s: string, pattern: Regex, matches: var openArray[string],
- start = 0): int {.inline.} =
- ## returns the starting position of `pattern` in `s` and the captured
- ## substrings in the array `matches`. If it does not match, nothing
- ## is written into `matches` and `-1` is returned.
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- result = find(cstring(s), pattern, matches, start, s.len)
- proc find*(buf: cstring, pattern: Regex, start = 0, bufSize: int): int =
- ## returns the starting position of `pattern` in `buf`,
- ## where `buf` has length `bufSize` (not necessarily `'\0'` terminated).
- ## If it does not match, `-1` is returned.
- var
- rtarray = initRtArray[cint](3)
- rawMatches = rtarray.getRawData
- res = pcre.exec(pattern.h, pattern.e, buf, bufSize.cint, start.cint, 0'i32,
- cast[ptr cint](rawMatches), 3)
- if res < 0'i32: return res
- return rawMatches[0]
- proc find*(s: string, pattern: Regex, start = 0): int {.inline.} =
- ## returns the starting position of `pattern` in `s`. If it does not
- ## match, `-1` is returned. We start the scan at `start`.
- runnableExamples:
- doAssert find("abcdefg", re"cde") == 2
- doAssert find("abcdefg", re"abc") == 0
- doAssert find("abcdefg", re"zz") == -1 # not found
- doAssert find("abcdefg", re"cde", start = 2) == 2 # still 2
- doAssert find("abcdefg", re"cde", start = 3) == -1 # we're past the start position
- doAssert find("xabc", re"(?<=x|y)abc", start = 1) == 1
- # lookbehind assertion `(?<=x|y)` can look behind `start`
- result = find(cstring(s), pattern, start, s.len)
- iterator findAll*(s: string, pattern: Regex, start = 0): string =
- ## Yields all matching *substrings* of `s` that match `pattern`.
- ##
- ## Note that since this is an iterator you should not modify the string you
- ## are iterating over: bad things could happen.
- var
- i = int32(start)
- rtarray = initRtArray[cint](3)
- rawMatches = rtarray.getRawData
- while true:
- let res = pcre.exec(pattern.h, pattern.e, s, len(s).cint, i, 0'i32,
- cast[ptr cint](rawMatches), 3)
- if res < 0'i32: break
- let a = rawMatches[0]
- let b = rawMatches[1]
- if a == b and a == i: break
- yield substr(s, int(a), int(b)-1)
- i = b
- iterator findAll*(buf: cstring, pattern: Regex, start = 0, bufSize: int): string =
- ## Yields all matching `substrings` of `s` that match `pattern`.
- ##
- ## Note that since this is an iterator you should not modify the string you
- ## are iterating over: bad things could happen.
- var
- i = int32(start)
- rtarray = initRtArray[cint](3)
- rawMatches = rtarray.getRawData
- while true:
- let res = pcre.exec(pattern.h, pattern.e, buf, bufSize.cint, i, 0'i32,
- cast[ptr cint](rawMatches), 3)
- if res < 0'i32: break
- let a = rawMatches[0]
- let b = rawMatches[1]
- if a == b and a == i: break
- var str = newString(b-a)
- copyMem(str[0].addr, unsafeAddr(buf[a]), b-a)
- yield str
- i = b
- proc findAll*(s: string, pattern: Regex, start = 0): seq[string] {.inline.} =
- ## returns all matching `substrings` of `s` that match `pattern`.
- ## If it does not match, `@[]` is returned.
- result = @[]
- for x in findAll(s, pattern, start): result.add x
- template `=~` *(s: string, pattern: Regex): untyped =
- ## This calls `match` with an implicit declared `matches` array that
- ## can be used in the scope of the `=~` call:
- runnableExamples:
- proc parse(line: string): string =
- if line =~ re"\s*(\w+)\s*\=\s*(\w+)": # matches a key=value pair:
- result = $(matches[0], matches[1])
- elif line =~ re"\s*(\#.*)": # matches a comment
- # note that the implicit `matches` array is different from 1st branch
- result = $(matches[0],)
- else: doAssert false
- doAssert not declared(matches)
- doAssert parse("NAME = LENA") == """("NAME", "LENA")"""
- doAssert parse(" # comment ... ") == """("# comment ... ",)"""
- bind MaxSubpatterns
- when not declaredInScope(matches):
- var matches {.inject.}: array[MaxSubpatterns, string]
- match(s, pattern, matches)
- # ------------------------- more string handling ------------------------------
- proc contains*(s: string, pattern: Regex, start = 0): bool {.inline.} =
- ## same as `find(s, pattern, start) >= 0`
- return find(s, pattern, start) >= 0
- proc contains*(s: string, pattern: Regex, matches: var openArray[string],
- start = 0): bool {.inline.} =
- ## same as `find(s, pattern, matches, start) >= 0`
- ##
- ## .. note:: The memory for `matches` needs to be allocated before this function is called, otherwise it will just remain empty.
- return find(s, pattern, matches, start) >= 0
- proc startsWith*(s: string, prefix: Regex): bool {.inline.} =
- ## returns true if `s` starts with the pattern `prefix`
- result = matchLen(s, prefix) >= 0
- proc endsWith*(s: string, suffix: Regex): bool {.inline.} =
- ## returns true if `s` ends with the pattern `suffix`
- for i in 0 .. s.len-1:
- if matchLen(s, suffix, i) == s.len - i: return true
- proc replace*(s: string, sub: Regex, by = ""): string =
- ## Replaces `sub` in `s` by the string `by`. Captures cannot be
- ## accessed in `by`.
- runnableExamples:
- doAssert "var1=key; var2=key2".replace(re"(\w+)=(\w+)") == "; "
- doAssert "var1=key; var2=key2".replace(re"(\w+)=(\w+)", "?") == "?; ?"
- result = ""
- var prev = 0
- var flags = int32(0)
- while prev < s.len:
- var match = findBoundsImpl(s.cstring, sub, prev, s.len, flags)
- flags = 0
- if match.first < 0: break
- add(result, substr(s, prev, match.first-1))
- add(result, by)
- if match.first > match.last:
- # 0-len match
- flags = pcre.NOTEMPTY_ATSTART
- prev = match.last + 1
- add(result, substr(s, prev))
- proc replacef*(s: string, sub: Regex, by: string): string =
- ## Replaces `sub` in `s` by the string `by`. Captures can be accessed in `by`
- ## with the notation `$i` and `$#` (see strutils.\`%\`).
- runnableExamples:
- doAssert "var1=key; var2=key2".replacef(re"(\w+)=(\w+)", "$1<-$2$2") ==
- "var1<-keykey; var2<-key2key2"
- result = ""
- var caps: array[MaxSubpatterns, string]
- var prev = 0
- while prev < s.len:
- var match = findBounds(s, sub, caps, prev)
- if match.first < 0: break
- add(result, substr(s, prev, match.first-1))
- addf(result, by, caps)
- if match.last + 1 == prev: break
- prev = match.last + 1
- add(result, substr(s, prev))
- proc multiReplace*(s: string, subs: openArray[
- tuple[pattern: Regex, repl: string]]): string =
- ## Returns a modified copy of `s` with the substitutions in `subs`
- ## applied in parallel.
- result = ""
- var i = 0
- var caps: array[MaxSubpatterns, string]
- while i < s.len:
- block searchSubs:
- for j in 0..high(subs):
- var x = matchLen(s, subs[j][0], caps, i)
- if x > 0:
- addf(result, subs[j][1], caps)
- inc(i, x)
- break searchSubs
- add(result, s[i])
- inc(i)
- # copy the rest:
- add(result, substr(s, i))
- proc transformFile*(infile, outfile: string,
- subs: openArray[tuple[pattern: Regex, repl: string]]) =
- ## reads in the file `infile`, performs a parallel replacement (calls
- ## `parallelReplace`) and writes back to `outfile`. Raises `IOError` if an
- ## error occurs. This is supposed to be used for quick scripting.
- var x = readFile(infile)
- writeFile(outfile, x.multiReplace(subs))
- iterator split*(s: string, sep: Regex; maxsplit = -1): string =
- ## Splits the string `s` into substrings.
- ##
- ## Substrings are separated by the regular expression `sep`
- ## (and the portion matched by `sep` is not returned).
- runnableExamples:
- import std/sequtils
- doAssert toSeq(split("00232this02939is39an22example111", re"\d+")) ==
- @["", "this", "is", "an", "example", ""]
- var last = 0
- var splits = maxsplit
- var x = -1
- if len(s) == 0:
- last = 1
- if matchLen(s, sep, 0) == 0:
- x = 0
- while last <= len(s):
- var first = last
- var sepLen = 1
- if x == 0:
- inc(last)
- while last < len(s):
- x = matchLen(s, sep, last)
- if x >= 0:
- sepLen = x
- break
- inc(last)
- if splits == 0: last = len(s)
- yield substr(s, first, last-1)
- if splits == 0: break
- dec(splits)
- inc(last, sepLen)
- proc split*(s: string, sep: Regex, maxsplit = -1): seq[string] {.inline.} =
- ## Splits the string `s` into a seq of substrings.
- ##
- ## The portion matched by `sep` is not returned.
- result = @[]
- for x in split(s, sep, maxsplit): result.add x
- proc escapeRe*(s: string): string =
- ## escapes `s` so that it is matched verbatim when used as a regular
- ## expression.
- result = ""
- for c in items(s):
- case c
- of 'a'..'z', 'A'..'Z', '0'..'9', '_':
- result.add(c)
- else:
- result.add("\\x")
- result.add(toHex(ord(c), 2))
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