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Added 'openArray[char]' overloads to 'std/parseutils' (#20527)

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* Added 'openarray[char]' overloads to 'std/parseutils'

* Removed redundant `start` and `last` params from slice using procs

* Fixed type for parseIdent overload

* fixed one by off with 'substr'

* removed missed start parameters for procedures

* Added 'openarray[char]' overloads to 'std/parseutils'

* Removed redundant `start` and `last` params from slice using procs

* Fixed type for parseIdent overload

* fixed one by off with 'substr'

* removed missed start parameters for procedures

* Fixed VM op to work with new 'opcSlice'

* Corrected captureBetween's logic to work with openarray

* js sys's parsefloat logic now uses openarray

Co-authored-by: Clay Sweetser <Varriount@users.noreply.github.com>
This commit is contained in:
Jason Beetham
2022-10-24 12:50:54 -06:00
committed by GitHub
parent eed1b6df20
commit ea0e45e62f
8 changed files with 550 additions and 162 deletions
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1
changelog.md
View File

@@ -134,6 +134,7 @@
`toggleAttribute`, and `matches` to `std/dom`.
- Added [`jsre.hasIndices`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/RegExp/hasIndices)
- Added `capacity` for `string` and `seq` to return the current capacity, see https://github.com/nim-lang/RFCs/issues/460
- Added `openArray[char]` overloads for `std/parseutils` allowing more code reuse.
- Added `safe` parameter to `base64.encodeMime`
[//]: # "Deprecations:"

27
compiler/vm.nim
View File

@@ -1308,15 +1308,32 @@ proc rawExecute(c: PCtx, start: int, tos: PStackFrame): TFullReg =
regs[ra].intVal = ord(inSet(regs[rb].node, regs[rc].regToNode))
of opcParseFloat:
decodeBC(rkInt)
inc pc
assert c.code[pc].opcode == opcParseFloat
let rd = c.code[pc].regA
var rcAddr = addr(regs[rc])
if rcAddr.kind == rkRegisterAddr: rcAddr = rcAddr.regAddr
elif regs[rc].kind != rkFloat:
regs[rc] = TFullReg(kind: rkFloat)
regs[ra].intVal = parseBiggestFloat(regs[rb].node.strVal,
rcAddr.floatVal, regs[rd].intVal.int)
let coll = regs[rb].node
case coll.kind
of nkTupleConstr:
let
data = coll[0]
left = coll[1].intVal
right = coll[2].intVal
case data.kind
of nkStrKinds:
regs[ra].intVal = parseBiggestFloat(data.strVal.toOpenArray(int left, int right), rcAddr.floatVal)
of nkBracket:
var s = newStringOfCap(right - left + 1)
for i in left..right:
s.add char data[int i].intVal
regs[ra].intVal = parseBiggestFloat(s, rcAddr.floatVal)
else:
internalError(c.config, c.debug[pc], "opcParseFloat: Incorrectly created openarray")
else:
regs[ra].intVal = parseBiggestFloat(regs[ra].node.strVal, rcAddr.floatVal)
of opcRangeChck:
let rb = instr.regB
let rc = instr.regC

3
compiler/vmgen.nim
View File

@@ -1189,11 +1189,8 @@ proc genMagic(c: PCtx; n: PNode; dest: var TDest; m: TMagic) =
d2 = c.genx(d2AsNode)
var
tmp1 = c.genx(n[1])
tmp3 = c.genx(n[3])
c.gABC(n, opcParseFloat, dest, tmp1, d2)
c.gABC(n, opcParseFloat, tmp3)
c.freeTemp(tmp1)
c.freeTemp(tmp3)
c.genAsgnPatch(d2AsNode, d2)
c.freeTemp(d2)
of mReset:

536
lib/pure/parseutils.nim
View File

@@ -50,6 +50,8 @@
include "system/inclrtl"
template toOa(s: string): openArray[char] = openArray[char](s)
const
Whitespace = {' ', '\t', '\v', '\r', '\l', '\f'}
IdentChars = {'a'..'z', 'A'..'Z', '0'..'9', '_'}
@@ -59,8 +61,7 @@ const
proc toLower(c: char): char {.inline.} =
result = if c in {'A'..'Z'}: chr(ord(c)-ord('A')+ord('a')) else: c
proc parseBin*[T: SomeInteger](s: string, number: var T, start = 0,
maxLen = 0): int {.noSideEffect.} =
proc parseBin*[T: SomeInteger](s: openArray[char], number: var T, maxLen = 0): int {.noSideEffect.} =
## Parses a binary number and stores its value in ``number``.
##
## Returns the number of the parsed characters or 0 in case of an error.
@@ -89,7 +90,7 @@ proc parseBin*[T: SomeInteger](s: string, number: var T, start = 0,
var num64: int64
doAssert parseBin("0100111001101001111011010100111001101001", num64) == 40
doAssert num64 == 336784608873
var i = start
var i = 0
var output = T(0)
var foundDigit = false
let last = min(s.len, if maxLen == 0: s.len else: i + maxLen)
@@ -104,10 +105,9 @@ proc parseBin*[T: SomeInteger](s: string, number: var T, start = 0,
inc(i)
if foundDigit:
number = output
result = i - start
result = i
proc parseOct*[T: SomeInteger](s: string, number: var T, start = 0,
maxLen = 0): int {.noSideEffect.} =
proc parseOct*[T: SomeInteger](s: openArray[char], number: var T, maxLen = 0): int {.noSideEffect.} =
## Parses an octal number and stores its value in ``number``.
##
## Returns the number of the parsed characters or 0 in case of an error.
@@ -136,7 +136,7 @@ proc parseOct*[T: SomeInteger](s: string, number: var T, start = 0,
var num64: int64
doAssert parseOct("2346475523464755", num64) == 16
doAssert num64 == 86216859871725
var i = start
var i = 0
var output = T(0)
var foundDigit = false
let last = min(s.len, if maxLen == 0: s.len else: i + maxLen)
@@ -151,10 +151,9 @@ proc parseOct*[T: SomeInteger](s: string, number: var T, start = 0,
inc(i)
if foundDigit:
number = output
result = i - start
result = i
proc parseHex*[T: SomeInteger](s: string, number: var T, start = 0,
maxLen = 0): int {.noSideEffect.} =
proc parseHex*[T: SomeInteger](s: openArray[char], number: var T, maxLen = 0): int {.noSideEffect.} =
## Parses a hexadecimal number and stores its value in ``number``.
##
## Returns the number of the parsed characters or 0 in case of an error.
@@ -184,7 +183,7 @@ proc parseHex*[T: SomeInteger](s: string, number: var T, start = 0,
var num64: int64
doAssert parseHex("4E69ED4E69ED", num64) == 12
doAssert num64 == 86216859871725
var i = start
var i = 0
var output = T(0)
var foundDigit = false
let last = min(s.len, if maxLen == 0: s.len else: i + maxLen)
@@ -206,9 +205,9 @@ proc parseHex*[T: SomeInteger](s: string, number: var T, start = 0,
inc(i)
if foundDigit:
number = output
result = i - start
result = i
proc parseIdent*(s: string, ident: var string, start = 0): int =
proc parseIdent*(s: openArray[char], ident: var string): int =
## Parses an identifier and stores it in ``ident``. Returns
## the number of the parsed characters or 0 in case of an error.
## If error, the value of `ident` is not changed.
@@ -220,14 +219,14 @@ proc parseIdent*(s: string, ident: var string, start = 0): int =
doAssert res == "ello"
doAssert parseIdent("Hello World", res, 6) == 5
doAssert res == "World"
var i = start
var i = 0
if i < s.len and s[i] in IdentStartChars:
inc(i)
while i < s.len and s[i] in IdentChars: inc(i)
ident = substr(s, start, i-1)
result = i-start
ident = substr(s.toOpenArray(0, i-1))
result = i
proc parseIdent*(s: string, start = 0): string =
proc parseIdent*(s: openArray[char]): string =
## Parses an identifier and returns it or an empty string in
## case of an error.
runnableExamples:
@@ -236,13 +235,13 @@ proc parseIdent*(s: string, start = 0): string =
doAssert parseIdent("Hello World", 5) == ""
doAssert parseIdent("Hello World", 6) == "World"
result = ""
var i = start
var i = 0
if i < s.len and s[i] in IdentStartChars:
inc(i)
while i < s.len and s[i] in IdentChars: inc(i)
result = substr(s, start, i-1)
result = substr(s.toOpenArray(0, i - 1))
proc parseChar*(s: string, c: var char, start = 0): int =
proc parseChar*(s: openArray[char], c: var char): int =
## Parses a single character, stores it in `c` and returns 1.
## In case of error (if start >= s.len) it returns 0
## and the value of `c` is unchanged.
@@ -252,11 +251,11 @@ proc parseChar*(s: string, c: var char, start = 0): int =
doAssert c == '\0'
doAssert "nim".parseChar(c, 0) == 1
doAssert c == 'n'
if start < s.len:
c = s[start]
if s.len > 0:
c = s[0]
result = 1
proc skipWhitespace*(s: string, start = 0): int {.inline.} =
proc skipWhitespace*(s: openArray[char]): int {.inline.} =
## Skips the whitespace starting at ``s[start]``. Returns the number of
## skipped characters.
runnableExamples:
@@ -265,9 +264,9 @@ proc skipWhitespace*(s: string, start = 0): int {.inline.} =
doAssert skipWhitespace("Hello World", 5) == 1
doAssert skipWhitespace("Hello World", 5) == 2
result = 0
while start+result < s.len and s[start+result] in Whitespace: inc(result)
while result < s.len and s[result] in Whitespace: inc(result)
proc skip*(s, token: string, start = 0): int {.inline.} =
proc skip*(s, token: openArray[char]): int {.inline.} =
## Skips the `token` starting at ``s[start]``. Returns the length of `token`
## or 0 if there was no `token` at ``s[start]``.
runnableExamples:
@@ -277,22 +276,22 @@ proc skip*(s, token: string, start = 0): int {.inline.} =
doAssert skip("CAPlow", "CAP", 0) == 3
doAssert skip("CAPlow", "cap", 0) == 0
result = 0
while start+result < s.len and result < token.len and
s[result+start] == token[result]:
while result < s.len and result < token.len and
s[result] == token[result]:
inc(result)
if result != token.len: result = 0
proc skipIgnoreCase*(s, token: string, start = 0): int =
proc skipIgnoreCase*(s, token: openArray[char]): int =
## Same as `skip` but case is ignored for token matching.
runnableExamples:
doAssert skipIgnoreCase("CAPlow", "CAP", 0) == 3
doAssert skipIgnoreCase("CAPlow", "cap", 0) == 3
result = 0
while start+result < s.len and result < token.len and
toLower(s[result+start]) == toLower(token[result]): inc(result)
while result < s.len and result < token.len and
toLower(s[result]) == toLower(token[result]): inc(result)
if result != token.len: result = 0
proc skipUntil*(s: string, until: set[char], start = 0): int {.inline.} =
proc skipUntil*(s: openArray[char], until: set[char]): int {.inline.} =
## Skips all characters until one char from the set `until` is found
## or the end is reached.
## Returns number of characters skipped.
@@ -301,9 +300,9 @@ proc skipUntil*(s: string, until: set[char], start = 0): int {.inline.} =
doAssert skipUntil("Hello World", {'W'}, 0) == 6
doAssert skipUntil("Hello World", {'W', 'd'}, 0) == 6
result = 0
while start+result < s.len and s[result+start] notin until: inc(result)
while result < s.len and s[result] notin until: inc(result)
proc skipUntil*(s: string, until: char, start = 0): int {.inline.} =
proc skipUntil*(s: openArray[char], until: char): int {.inline.} =
## Skips all characters until the char `until` is found
## or the end is reached.
## Returns number of characters skipped.
@@ -313,9 +312,9 @@ proc skipUntil*(s: string, until: char, start = 0): int {.inline.} =
doAssert skipUntil("Hello World", 'W', 0) == 6
doAssert skipUntil("Hello World", 'w', 0) == 11
result = 0
while start+result < s.len and s[result+start] != until: inc(result)
while result < s.len and s[result] != until: inc(result)
proc skipWhile*(s: string, toSkip: set[char], start = 0): int {.inline.} =
proc skipWhile*(s: openArray[char], toSkip: set[char]): int {.inline.} =
## Skips all characters while one char from the set `toSkip` is found.
## Returns number of characters skipped.
runnableExamples:
@@ -323,14 +322,13 @@ proc skipWhile*(s: string, toSkip: set[char], start = 0): int {.inline.} =
doAssert skipWhile("Hello World", {'e'}) == 0
doAssert skipWhile("Hello World", {'W', 'o', 'r'}, 6) == 3
result = 0
while start+result < s.len and s[result+start] in toSkip: inc(result)
while result < s.len and s[result] in toSkip: inc(result)
proc fastSubstr(s: string; token: var string; start, length: int) =
proc fastSubstr(s: openArray[char]; token: var string; length: int) =
token.setLen length
for i in 0 ..< length: token[i] = s[i+start]
for i in 0 ..< length: token[i] = s[i]
proc parseUntil*(s: string, token: var string, until: set[char],
start = 0): int {.inline.} =
proc parseUntil*(s: openArray[char], token: var string, until: set[char]): int {.inline.} =
## Parses a token and stores it in ``token``. Returns
## the number of the parsed characters or 0 in case of an error. A token
## consists of the characters notin `until`.
@@ -342,14 +340,13 @@ proc parseUntil*(s: string, token: var string, until: set[char],
doAssert myToken == "Hello "
doAssert parseUntil("Hello World", myToken, {'W', 'r'}, 3) == 3
doAssert myToken == "lo "
var i = start
var i = 0
while i < s.len and s[i] notin until: inc(i)
result = i-start
fastSubstr(s, token, start, result)
result = i
fastSubstr(s, token, result)
#token = substr(s, start, i-1)
proc parseUntil*(s: string, token: var string, until: char,
start = 0): int {.inline.} =
proc parseUntil*(s: openArray[char], token: var string, until: char): int {.inline.} =
## Parses a token and stores it in ``token``. Returns
## the number of the parsed characters or 0 in case of an error. A token
## consists of any character that is not the `until` character.
@@ -361,14 +358,13 @@ proc parseUntil*(s: string, token: var string, until: char,
doAssert myToken == "Hell"
doAssert parseUntil("Hello World", myToken, 'o', 2) == 2
doAssert myToken == "ll"
var i = start
var i = 0
while i < s.len and s[i] != until: inc(i)
result = i-start
fastSubstr(s, token, start, result)
result = i
fastSubstr(s, token, result)
#token = substr(s, start, i-1)
proc parseUntil*(s: string, token: var string, until: string,
start = 0): int {.inline.} =
proc parseUntil*(s: openArray[char], token: var string, until: string): int {.inline.} =
## Parses a token and stores it in ``token``. Returns
## the number of the parsed characters or 0 in case of an error. A token
## consists of any character that comes before the `until` token.
@@ -382,7 +378,7 @@ proc parseUntil*(s: string, token: var string, until: string,
if until.len == 0:
token.setLen(0)
return 0
var i = start
var i = 0
while i < s.len:
if until.len > 0 and s[i] == until[0]:
var u = 1
@@ -390,12 +386,11 @@ proc parseUntil*(s: string, token: var string, until: string,
inc u
if u >= until.len: break
inc(i)
result = i-start
fastSubstr(s, token, start, result)
result = i
fastSubstr(s, token, result)
#token = substr(s, start, i-1)
proc parseWhile*(s: string, token: var string, validChars: set[char],
start = 0): int {.inline.} =
proc parseWhile*(s: openArray[char], token: var string, validChars: set[char]): int {.inline.} =
## Parses a token and stores it in ``token``. Returns
## the number of the parsed characters or 0 in case of an error. A token
## consists of the characters in `validChars`.
@@ -405,22 +400,22 @@ proc parseWhile*(s: string, token: var string, validChars: set[char],
doAssert myToken.len() == 0
doAssert parseWhile("Hello World", myToken, {'W', 'o', 'r'}, 6) == 3
doAssert myToken == "Wor"
var i = start
var i = 0
while i < s.len and s[i] in validChars: inc(i)
result = i-start
fastSubstr(s, token, start, result)
result = i
fastSubstr(s, token, result)
#token = substr(s, start, i-1)
proc captureBetween*(s: string, first: char, second = '\0', start = 0): string =
proc captureBetween*(s: openArray[char], first: char, second = '\0'): string =
## Finds the first occurrence of ``first``, then returns everything from there
## up to ``second`` (if ``second`` is '\0', then ``first`` is used).
runnableExamples:
doAssert captureBetween("Hello World", 'e') == "llo World"
doAssert captureBetween("Hello World", 'e', 'r') == "llo Wo"
doAssert captureBetween("Hello World", 'l', start = 6) == "d"
var i = skipUntil(s, first, start)+1+start
doAssert captureBetween("Hello World".toOpenArray(6, "Hello World".high), 'l') == "d"
var i = skipUntil(s, first) + 1
result = ""
discard s.parseUntil(result, if second == '\0': first else: second, i)
discard parseUntil(s.toOpenArray(i, s.high), result, if second == '\0': first else: second)
proc integerOutOfRangeError() {.noinline.} =
raise newException(ValueError, "Parsed integer outside of valid range")
@@ -429,10 +424,10 @@ proc integerOutOfRangeError() {.noinline.} =
when defined(js):
{.push overflowChecks: off.}
proc rawParseInt(s: string, b: var BiggestInt, start = 0): int =
proc rawParseInt(s: openArray[char], b: var BiggestInt): int =
var
sign: BiggestInt = -1
i = start
i = 0
if i < s.len:
if s[i] == '+': inc(i)
elif s[i] == '-':
@@ -452,30 +447,30 @@ proc rawParseInt(s: string, b: var BiggestInt, start = 0): int =
integerOutOfRangeError()
else:
b = b * sign
result = i - start
result = i
when defined(js):
{.pop.} # overflowChecks: off
proc parseBiggestInt*(s: string, number: var BiggestInt, start = 0): int {.
proc parseBiggestInt*(s: openArray[char], number: var BiggestInt): int {.
rtl, extern: "npuParseBiggestInt", noSideEffect, raises: [ValueError].} =
## Parses an integer starting at `start` and stores the value into `number`.
## Parses an integer and stores the value into `number`.
## Result is the number of processed chars or 0 if there is no integer.
## `ValueError` is raised if the parsed integer is out of the valid range.
runnableExamples:
var res: BiggestInt
doAssert parseBiggestInt("9223372036854775807", res, 0) == 19
doAssert parseBiggestInt("9223372036854775807", res) == 19
doAssert res == 9223372036854775807
var res = BiggestInt(0)
# use 'res' for exception safety (don't write to 'number' in case of an
# overflow exception):
result = rawParseInt(s, res, start)
result = rawParseInt(s, res)
if result != 0:
number = res
proc parseInt*(s: string, number: var int, start = 0): int {.
proc parseInt*(s: openArray[char], number: var int): int {.
rtl, extern: "npuParseInt", noSideEffect, raises: [ValueError].} =
## Parses an integer starting at `start` and stores the value into `number`.
## Parses an integer and stores the value into `number`.
## Result is the number of processed chars or 0 if there is no integer.
## `ValueError` is raised if the parsed integer is out of the valid range.
runnableExamples:
@@ -485,14 +480,14 @@ proc parseInt*(s: string, number: var int, start = 0): int {.
doAssert parseInt("2019", res, 2) == 2
doAssert res == 19
var res = BiggestInt(0)
result = parseBiggestInt(s, res, start)
result = parseBiggestInt(s, res)
when sizeof(int) <= 4:
if res < low(int) or res > high(int):
integerOutOfRangeError()
if result != 0:
number = int(res)
proc parseSaturatedNatural*(s: string, b: var int, start = 0): int {.
proc parseSaturatedNatural*(s: openArray[char], b: var int): int {.
raises: [].} =
## Parses a natural number into ``b``. This cannot raise an overflow
## error. ``high(int)`` is returned for an overflow.
@@ -502,7 +497,7 @@ proc parseSaturatedNatural*(s: string, b: var int, start = 0): int {.
var res = 0
discard parseSaturatedNatural("848", res)
doAssert res == 848
var i = start
var i = 0
if i < s.len and s[i] == '+': inc(i)
if i < s.len and s[i] in {'0'..'9'}:
b = 0
@@ -514,13 +509,13 @@ proc parseSaturatedNatural*(s: string, b: var int, start = 0): int {.
b = high(int)
inc(i)
while i < s.len and s[i] == '_': inc(i) # underscores are allowed and ignored
result = i - start
result = i
proc rawParseUInt(s: string, b: var BiggestUInt, start = 0): int =
proc rawParseUInt(s: openArray[char], b: var BiggestUInt): int =
var
res = 0.BiggestUInt
prev = 0.BiggestUInt
i = start
i = 0
if i < s.len - 1 and s[i] == '-' and s[i + 1] in {'0'..'9'}:
integerOutOfRangeError()
if i < s.len and s[i] == '+': inc(i) # Allow
@@ -534,11 +529,11 @@ proc rawParseUInt(s: string, b: var BiggestUInt, start = 0): int =
inc(i)
while i < s.len and s[i] == '_': inc(i) # underscores are allowed and ignored
b = res
result = i - start
result = i
proc parseBiggestUInt*(s: string, number: var BiggestUInt, start = 0): int {.
proc parseBiggestUInt*(s: openArray[char], number: var BiggestUInt): int {.
rtl, extern: "npuParseBiggestUInt", noSideEffect, raises: [ValueError].} =
## Parses an unsigned integer starting at `start` and stores the value
## Parses an unsigned integer and stores the value
## into `number`.
## `ValueError` is raised if the parsed integer is out of the valid range.
runnableExamples:
@@ -550,13 +545,13 @@ proc parseBiggestUInt*(s: string, number: var BiggestUInt, start = 0): int {.
var res = BiggestUInt(0)
# use 'res' for exception safety (don't write to 'number' in case of an
# overflow exception):
result = rawParseUInt(s, res, start)
result = rawParseUInt(s, res)
if result != 0:
number = res
proc parseUInt*(s: string, number: var uint, start = 0): int {.
proc parseUInt*(s: openArray[char], number: var uint): int {.
rtl, extern: "npuParseUInt", noSideEffect, raises: [ValueError].} =
## Parses an unsigned integer starting at `start` and stores the value
## Parses an unsigned integer and stores the value
## into `number`.
## `ValueError` is raised if the parsed integer is out of the valid range.
runnableExamples:
@@ -566,22 +561,22 @@ proc parseUInt*(s: string, number: var uint, start = 0): int {.
doAssert parseUInt("3450", res, 2) == 2
doAssert res == 50
var res = BiggestUInt(0)
result = parseBiggestUInt(s, res, start)
result = parseBiggestUInt(s, res)
when sizeof(BiggestUInt) > sizeof(uint) and sizeof(uint) <= 4:
if res > 0xFFFF_FFFF'u64:
integerOutOfRangeError()
if result != 0:
number = uint(res)
proc parseBiggestFloat*(s: string, number: var BiggestFloat, start = 0): int {.
proc parseBiggestFloat*(s: openArray[char], number: var BiggestFloat): int {.
magic: "ParseBiggestFloat", importc: "nimParseBiggestFloat", noSideEffect.}
## Parses a float starting at `start` and stores the value into `number`.
## Parses a float and stores the value into `number`.
## Result is the number of processed chars or 0 if a parsing error
## occurred.
proc parseFloat*(s: string, number: var float, start = 0): int {.
proc parseFloat*(s: openArray[char], number: var float): int {.
rtl, extern: "npuParseFloat", noSideEffect.} =
## Parses a float starting at `start` and stores the value into `number`.
## Parses a float and stores the value into `number`.
## Result is the number of processed chars or 0 if there occurred a parsing
## error.
runnableExamples:
@@ -593,7 +588,7 @@ proc parseFloat*(s: string, number: var float, start = 0): int {.
doAssert parseFloat("32.57", res, 3) == 2
doAssert res == 57.00
var bf = BiggestFloat(0.0)
result = parseBiggestFloat(s, bf, start)
result = parseBiggestFloat(s, bf)
if result != 0:
number = bf
@@ -606,7 +601,7 @@ type
ikVar, ## ``var`` part of the interpolated string
ikExpr ## ``expr`` part of the interpolated string
iterator interpolatedFragments*(s: string): tuple[kind: InterpolatedKind,
iterator interpolatedFragments*(s: openArray[char]): tuple[kind: InterpolatedKind,
value: string] =
## Tokenizes the string `s` into substrings for interpolation purposes.
##
@@ -641,7 +636,7 @@ iterator interpolatedFragments*(s: string): tuple[kind: InterpolatedKind,
else: discard
inc j
raise newException(ValueError,
"Expected closing '}': " & substr(s, i, s.high))
"Expected closing '}': " & substr(s.toOpenArray(i, s.high)))
inc i, 2 # skip ${
kind = ikExpr
elif j+1 < s.len and s[j+1] in IdentStartChars:
@@ -655,15 +650,370 @@ iterator interpolatedFragments*(s: string): tuple[kind: InterpolatedKind,
kind = ikDollar
else:
raise newException(ValueError,
"Unable to parse a variable name at " & substr(s, i, s.high))
"Unable to parse a variable name at " & substr(s.toOpenArray(i, s.high)))
else:
while j < s.len and s[j] != '$': inc j
kind = ikStr
if j > i:
# do not copy the trailing } for ikExpr:
yield (kind, substr(s, i, j-1-ord(kind == ikExpr)))
yield (kind, substr(s.toOpenArray(i, j-1-ord(kind == ikExpr))))
else:
break
i = j
{.pop.}
proc parseBin*[T: SomeInteger](s: string, number: var T, start = 0,
maxLen = 0): int {.noSideEffect.} =
## Parses a binary number and stores its value in ``number``.
##
## Returns the number of the parsed characters or 0 in case of an error.
## If error, the value of ``number`` is not changed.
##
## If ``maxLen == 0``, the parsing continues until the first non-bin character
## or to the end of the string. Otherwise, no more than ``maxLen`` characters
## are parsed starting from the ``start`` position.
##
## It does not check for overflow. If the value represented by the string is
## too big to fit into ``number``, only the value of last fitting characters
## will be stored in ``number`` without producing an error.
runnableExamples:
var num: int
doAssert parseBin("0100_1110_0110_1001_1110_1101", num) == 29
doAssert num == 5138925
doAssert parseBin("3", num) == 0
var num8: int8
doAssert parseBin("0b_0100_1110_0110_1001_1110_1101", num8) == 32
doAssert num8 == 0b1110_1101'i8
doAssert parseBin("0b_0100_1110_0110_1001_1110_1101", num8, 3, 9) == 9
doAssert num8 == 0b0100_1110'i8
var num8u: uint8
doAssert parseBin("0b_0100_1110_0110_1001_1110_1101", num8u) == 32
doAssert num8u == 237
var num64: int64
doAssert parseBin("0100111001101001111011010100111001101001", num64) == 40
doAssert num64 == 336784608873
parseBin(s.toOpenArray(start, s.high), number, maxLen)
proc parseOct*[T: SomeInteger](s: string, number: var T, start = 0,
maxLen = 0): int {.noSideEffect.} =
## Parses an octal number and stores its value in ``number``.
##
## Returns the number of the parsed characters or 0 in case of an error.
## If error, the value of ``number`` is not changed.
##
## If ``maxLen == 0``, the parsing continues until the first non-oct character
## or to the end of the string. Otherwise, no more than ``maxLen`` characters
## are parsed starting from the ``start`` position.
##
## It does not check for overflow. If the value represented by the string is
## too big to fit into ``number``, only the value of last fitting characters
## will be stored in ``number`` without producing an error.
runnableExamples:
var num: int
doAssert parseOct("0o23464755", num) == 10
doAssert num == 5138925
doAssert parseOct("8", num) == 0
var num8: int8
doAssert parseOct("0o_1464_755", num8) == 11
doAssert num8 == -19
doAssert parseOct("0o_1464_755", num8, 3, 3) == 3
doAssert num8 == 102
var num8u: uint8
doAssert parseOct("1464755", num8u) == 7
doAssert num8u == 237
var num64: int64
doAssert parseOct("2346475523464755", num64) == 16
doAssert num64 == 86216859871725
parseOct(s.toOpenArray(start, s.high), number, maxLen)
proc parseHex*[T: SomeInteger](s: string, number: var T, start = 0,
maxLen = 0): int {.noSideEffect.} =
## Parses a hexadecimal number and stores its value in ``number``.
##
## Returns the number of the parsed characters or 0 in case of an error.
## If error, the value of ``number`` is not changed.
##
## If ``maxLen == 0``, the parsing continues until the first non-hex character
## or to the end of the string. Otherwise, no more than ``maxLen`` characters
## are parsed starting from the ``start`` position.
##
## It does not check for overflow. If the value represented by the string is
## too big to fit into ``number``, only the value of last fitting characters
## will be stored in ``number`` without producing an error.
runnableExamples:
var num: int
doAssert parseHex("4E_69_ED", num) == 8
doAssert num == 5138925
doAssert parseHex("X", num) == 0
doAssert parseHex("#ABC", num) == 4
var num8: int8
doAssert parseHex("0x_4E_69_ED", num8) == 11
doAssert num8 == 0xED'i8
doAssert parseHex("0x_4E_69_ED", num8, 3, 2) == 2
doAssert num8 == 0x4E'i8
var num8u: uint8
doAssert parseHex("0x_4E_69_ED", num8u) == 11
doAssert num8u == 237
var num64: int64
doAssert parseHex("4E69ED4E69ED", num64) == 12
doAssert num64 == 86216859871725
parseHex(s.toOpenArray(start, s.high), number, maxLen)
proc parseIdent*(s: string, ident: var string, start = 0): int =
## Parses an identifier and stores it in ``ident``. Returns
## the number of the parsed characters or 0 in case of an error.
## If error, the value of `ident` is not changed.
runnableExamples:
var res: string
doAssert parseIdent("Hello World", res, 0) == 5
doAssert res == "Hello"
doAssert parseIdent("Hello World", res, 1) == 4
doAssert res == "ello"
doAssert parseIdent("Hello World", res, 6) == 5
doAssert res == "World"
parseIdent(s.toOpenArray(start, s.high), ident)
proc parseIdent*(s: string, start = 0): string =
## Parses an identifier and returns it or an empty string in
## case of an error.
runnableExamples:
doAssert parseIdent("Hello World", 0) == "Hello"
doAssert parseIdent("Hello World", 1) == "ello"
doAssert parseIdent("Hello World", 5) == ""
doAssert parseIdent("Hello World", 6) == "World"
parseIdent(s.toOpenArray(start, s.high))
proc parseChar*(s: string, c: var char, start = 0): int =
## Parses a single character, stores it in `c` and returns 1.
## In case of error (if start >= s.len) it returns 0
## and the value of `c` is unchanged.
runnableExamples:
var c: char
doAssert "nim".parseChar(c, 3) == 0
doAssert c == '\0'
doAssert "nim".parseChar(c, 0) == 1
doAssert c == 'n'
parseChar(s.toOpenArray(start, s.high), c)
proc skipWhitespace*(s: string, start = 0): int {.inline.} =
## Skips the whitespace starting at ``s[start]``. Returns the number of
## skipped characters.
runnableExamples:
doAssert skipWhitespace("Hello World", 0) == 0
doAssert skipWhitespace(" Hello World", 0) == 1
doAssert skipWhitespace("Hello World", 5) == 1
doAssert skipWhitespace("Hello World", 5) == 2
skipWhitespace(s.toOpenArray(start, s.high))
proc skip*(s, token: string, start = 0): int {.inline.} =
## Skips the `token` starting at ``s[start]``. Returns the length of `token`
## or 0 if there was no `token` at ``s[start]``.
runnableExamples:
doAssert skip("2019-01-22", "2019", 0) == 4
doAssert skip("2019-01-22", "19", 0) == 0
doAssert skip("2019-01-22", "19", 2) == 2
doAssert skip("CAPlow", "CAP", 0) == 3
doAssert skip("CAPlow", "cap", 0) == 0
skip(s.toOpenArray(start, s.high), token)
proc skipIgnoreCase*(s, token: string, start = 0): int =
## Same as `skip` but case is ignored for token matching.
runnableExamples:
doAssert skipIgnoreCase("CAPlow", "CAP", 0) == 3
doAssert skipIgnoreCase("CAPlow", "cap", 0) == 3
skipIgnoreCase(s.toOpenArray(start, s.high), token)
proc skipUntil*(s: string, until: set[char], start = 0): int {.inline.} =
## Skips all characters until one char from the set `until` is found
## or the end is reached.
## Returns number of characters skipped.
runnableExamples:
doAssert skipUntil("Hello World", {'W', 'e'}, 0) == 1
doAssert skipUntil("Hello World", {'W'}, 0) == 6
doAssert skipUntil("Hello World", {'W', 'd'}, 0) == 6
skipUntil(s.toOpenArray(start, s.high), until)
proc skipUntil*(s: string, until: char, start = 0): int {.inline.} =
## Skips all characters until the char `until` is found
## or the end is reached.
## Returns number of characters skipped.
runnableExamples:
doAssert skipUntil("Hello World", 'o', 0) == 4
doAssert skipUntil("Hello World", 'o', 4) == 0
doAssert skipUntil("Hello World", 'W', 0) == 6
doAssert skipUntil("Hello World", 'w', 0) == 11
skipUntil(s.toOpenArray(start, s.high), until)
proc skipWhile*(s: string, toSkip: set[char], start = 0): int {.inline.} =
## Skips all characters while one char from the set `toSkip` is found.
## Returns number of characters skipped.
runnableExamples:
doAssert skipWhile("Hello World", {'H', 'e'}) == 2
doAssert skipWhile("Hello World", {'e'}) == 0
doAssert skipWhile("Hello World", {'W', 'o', 'r'}, 6) == 3
skipWhile(s.toOpenArray(start, s.high), toSkip)
proc parseUntil*(s: string, token: var string, until: set[char],
start = 0): int {.inline.} =
## Parses a token and stores it in ``token``. Returns
## the number of the parsed characters or 0 in case of an error. A token
## consists of the characters notin `until`.
runnableExamples:
var myToken: string
doAssert parseUntil("Hello World", myToken, {'W', 'o', 'r'}) == 4
doAssert myToken == "Hell"
doAssert parseUntil("Hello World", myToken, {'W', 'r'}) == 6
doAssert myToken == "Hello "
doAssert parseUntil("Hello World", myToken, {'W', 'r'}, 3) == 3
doAssert myToken == "lo "
parseUntil(s.toOpenArray(start, s.high), token, until)
proc parseUntil*(s: string, token: var string, until: char,
start = 0): int {.inline.} =
## Parses a token and stores it in ``token``. Returns
## the number of the parsed characters or 0 in case of an error. A token
## consists of any character that is not the `until` character.
runnableExamples:
var myToken: string
doAssert parseUntil("Hello World", myToken, 'W') == 6
doAssert myToken == "Hello "
doAssert parseUntil("Hello World", myToken, 'o') == 4
doAssert myToken == "Hell"
doAssert parseUntil("Hello World", myToken, 'o', 2) == 2
doAssert myToken == "ll"
parseUntil(s.toOpenArray(start, s.high), token, until)
proc parseUntil*(s: string, token: var string, until: string,
start = 0): int {.inline.} =
## Parses a token and stores it in ``token``. Returns
## the number of the parsed characters or 0 in case of an error. A token
## consists of any character that comes before the `until` token.
runnableExamples:
var myToken: string
doAssert parseUntil("Hello World", myToken, "Wor") == 6
doAssert myToken == "Hello "
doAssert parseUntil("Hello World", myToken, "Wor", 2) == 4
doAssert myToken == "llo "
parseUntil(s.toOpenArray(start, s.high), token, until)
proc parseWhile*(s: string, token: var string, validChars: set[char],
start = 0): int {.inline.} =
## Parses a token and stores it in ``token``. Returns
## the number of the parsed characters or 0 in case of an error. A token
## consists of the characters in `validChars`.
runnableExamples:
var myToken: string
doAssert parseWhile("Hello World", myToken, {'W', 'o', 'r'}, 0) == 0
doAssert myToken.len() == 0
doAssert parseWhile("Hello World", myToken, {'W', 'o', 'r'}, 6) == 3
doAssert myToken == "Wor"
parseWhile(s.toOpenArray(start, s.high), token, validChars)
proc captureBetween*(s: string, first: char, second = '\0', start = 0): string =
## Finds the first occurrence of ``first``, then returns everything from there
## up to ``second`` (if ``second`` is '\0', then ``first`` is used).
runnableExamples:
doAssert captureBetween("Hello World", 'e') == "llo World"
doAssert captureBetween("Hello World", 'e', 'r') == "llo Wo"
doAssert captureBetween("Hello World", 'l', start = 6) == "d"
captureBetween(s.toOpenArray(start, s.high), first, second)
proc parseBiggestInt*(s: string, number: var BiggestInt, start = 0): int {.noSideEffect, raises: [ValueError].} =
## Parses an integer starting at `start` and stores the value into `number`.
## Result is the number of processed chars or 0 if there is no integer.
## `ValueError` is raised if the parsed integer is out of the valid range.
runnableExamples:
var res: BiggestInt
doAssert parseBiggestInt("9223372036854775807", res, 0) == 19
doAssert res == 9223372036854775807
parseBiggestInt(s.toOpenArray(start, s.high), number)
proc parseInt*(s: string, number: var int, start = 0): int {.noSideEffect, raises: [ValueError].} =
## Parses an integer starting at `start` and stores the value into `number`.
## Result is the number of processed chars or 0 if there is no integer.
## `ValueError` is raised if the parsed integer is out of the valid range.
runnableExamples:
var res: int
doAssert parseInt("2019", res, 0) == 4
doAssert res == 2019
doAssert parseInt("2019", res, 2) == 2
doAssert res == 19
parseInt(s.toOpenArray(start, s.high), number)
proc parseSaturatedNatural*(s: string, b: var int, start = 0): int {.
raises: [].} =
## Parses a natural number into ``b``. This cannot raise an overflow
## error. ``high(int)`` is returned for an overflow.
## The number of processed character is returned.
## This is usually what you really want to use instead of `parseInt`:idx:.
runnableExamples:
var res = 0
discard parseSaturatedNatural("848", res)
doAssert res == 848
parseSaturatedNatural(s.toOpenArray(start, s.high), b)
proc parseBiggestUInt*(s: string, number: var BiggestUInt, start = 0): int {.noSideEffect, raises: [ValueError].} =
## Parses an unsigned integer starting at `start` and stores the value
## into `number`.
## `ValueError` is raised if the parsed integer is out of the valid range.
runnableExamples:
var res: BiggestUInt
doAssert parseBiggestUInt("12", res, 0) == 2
doAssert res == 12
doAssert parseBiggestUInt("1111111111111111111", res, 0) == 19
doAssert res == 1111111111111111111'u64
parseBiggestUInt(s.toOpenArray(start, s.high), number)
proc parseUInt*(s: string, number: var uint, start = 0): int {.noSideEffect, raises: [ValueError].} =
## Parses an unsigned integer starting at `start` and stores the value
## into `number`.
## `ValueError` is raised if the parsed integer is out of the valid range.
runnableExamples:
var res: uint
doAssert parseUInt("3450", res) == 4
doAssert res == 3450
doAssert parseUInt("3450", res, 2) == 2
doAssert res == 50
parseUInt(s.toOpenArray(start, s.high), number)
proc parseBiggestFloat*(s: string, number: var BiggestFloat, start = 0): int {.noSideEffect.} =
## Parses a float starting at `start` and stores the value into `number`.
## Result is the number of processed chars or 0 if a parsing error
## occurred.
parseFloat(s.toOpenArray(start, s.high), number)
proc parseFloat*(s: string, number: var float, start = 0): int {.noSideEffect.} =
## Parses a float starting at `start` and stores the value into `number`.
## Result is the number of processed chars or 0 if there occurred a parsing
## error.
runnableExamples:
var res: float
doAssert parseFloat("32", res, 0) == 2
doAssert res == 32.0
doAssert parseFloat("32.57", res, 0) == 5
doAssert res == 32.57
doAssert parseFloat("32.57", res, 3) == 2
doAssert res == 57.00
parseFloat(s.toOpenArray(start, s.high), number)
iterator interpolatedFragments*(s: string): tuple[kind: InterpolatedKind,
value: string] =
## Tokenizes the string `s` into substrings for interpolation purposes.
##
runnableExamples:
var outp: seq[tuple[kind: InterpolatedKind, value: string]]
for k, v in interpolatedFragments(" $this is ${an example} $$"):
outp.add (k, v)
doAssert outp == @[(ikStr, " "),
(ikVar, "this"),
(ikStr, " is "),
(ikExpr, "an example"),
(ikStr, " "),
(ikDollar, "$")]
for x in s.toOa.interpolatedFragments:
yield x

14
lib/system.nim
View File

@@ -2580,7 +2580,19 @@ template once*(body: untyped): untyped =
{.pop.} # warning[GcMem]: off, warning[Uninit]: off
proc substr*(s: string, first, last: int): string =
proc substr*(s: openArray[char]): string =
## Copies a slice of `s` into a new string and returns this new
## string.
runnableExamples:
let a = "abcdefgh"
assert a.substr(2, 5) == "cdef"
assert a.substr(2) == "cdefgh"
assert a.substr(5, 99) == "fgh"
result = newString(s.len)
for i, ch in s:
result[i] = ch
proc substr*(s: string, first, last: int): string = # A bug with `magic: Slice` requires this to exist this way
## Copies a slice of `s` into a new string and returns this new
## string.
##

21
lib/system/jssys.nim
View File

@@ -725,15 +725,20 @@ const
IdentChars = {'a'..'z', 'A'..'Z', '0'..'9', '_'}
proc parseFloatNative(a: string): float =
let a2 = a.cstring
proc parseFloatNative(a: openarray[char]): float =
var str = ""
for x in a:
str.add x
let cstr = cstring str
asm """
`result` = Number(`a2`);
`result` = Number(`cstr`);
"""
proc nimParseBiggestFloat(s: string, number: var BiggestFloat, start: int): int {.compilerproc.} =
proc nimParseBiggestFloat(s: openarray[char], number: var BiggestFloat): int {.compilerproc.} =
var sign: bool
var i = start
var i = 0
if s[i] == '+': inc(i)
elif s[i] == '-':
sign = true
@@ -743,14 +748,14 @@ proc nimParseBiggestFloat(s: string, number: var BiggestFloat, start: int): int
if s[i+2] == 'N' or s[i+2] == 'n':
if s[i+3] notin IdentChars:
number = NaN
return i+3 - start
return i+3
return 0
if s[i] == 'I' or s[i] == 'i':
if s[i+1] == 'N' or s[i+1] == 'n':
if s[i+2] == 'F' or s[i+2] == 'f':
if s[i+3] notin IdentChars:
number = if sign: -Inf else: Inf
return i+3 - start
return i+3
return 0
var buf: string
@@ -782,7 +787,7 @@ proc nimParseBiggestFloat(s: string, number: var BiggestFloat, start: int): int
addInc()
eatUnderscores()
number = parseFloatNative(buf)
result = i - start
result = i
# Workaround for IE, IE up to version 11 lacks 'Math.trunc'. We produce
# 'Math.trunc' for Nim's ``div`` and ``mod`` operators:

24
lib/system/strmantle.nim
View File

@@ -78,8 +78,8 @@ const
when defined(nimHasInvariant):
{.push staticBoundChecks: off.}
proc nimParseBiggestFloat(s: string, number: var BiggestFloat,
start = 0): int {.compilerproc.} =
proc nimParseBiggestFloat(s: openArray[char], number: var BiggestFloat,
): int {.compilerproc.} =
# This routine attempt to parse float that can parsed quickly.
# i.e. whose integer part can fit inside a 53bits integer.
# their real exponent must also be <= 22. If the float doesn't follow
@@ -88,7 +88,7 @@ proc nimParseBiggestFloat(s: string, number: var BiggestFloat,
# This avoid the problems of decimal character portability.
# see: http://www.exploringbinary.com/fast-path-decimal-to-floating-point-conversion/
var
i = start
i = 0
sign = 1.0
kdigits, fdigits = 0
exponent = 0
@@ -111,7 +111,7 @@ proc nimParseBiggestFloat(s: string, number: var BiggestFloat,
if s[i+2] == 'N' or s[i+2] == 'n':
if i+3 >= s.len or s[i+3] notin IdentChars:
number = NaN
return i+3 - start
return i+3
return 0
# Inf?
@@ -120,7 +120,7 @@ proc nimParseBiggestFloat(s: string, number: var BiggestFloat,
if s[i+2] == 'F' or s[i+2] == 'f':
if i+3 >= s.len or s[i+3] notin IdentChars:
number = Inf*sign
return i+3 - start
return i+3
return 0
if i < s.len and s[i] in {'0'..'9'}:
@@ -154,8 +154,8 @@ proc nimParseBiggestFloat(s: string, number: var BiggestFloat,
# if has no digits: return error
if kdigits + fdigits <= 0 and
(i == start or # no char consumed (empty string).
(i == start + 1 and hasSign)): # or only '+' or '-
(i == 0 or # no char consumed (empty string).
(i == 1 and hasSign)): # or only '+' or '-
return 0
if i+1 < s.len and s[i] in {'e', 'E'}:
@@ -182,7 +182,7 @@ proc nimParseBiggestFloat(s: string, number: var BiggestFloat,
number = 0.0*sign
else:
number = Inf*sign
return i - start
return i
# if integer is representable in 53 bits: fast path
# max fast path integer is 1<<53 - 1 or 8999999999999999 (16 digits)
@@ -194,14 +194,14 @@ proc nimParseBiggestFloat(s: string, number: var BiggestFloat,
number = sign * integer.float / powtens[absExponent]
else:
number = sign * integer.float * powtens[absExponent]
return i - start
return i
# if exponent is greater try to fit extra exponent above 22 by multiplying
# integer part is there is space left.
let slop = 15 - kdigits - fdigits
if absExponent <= 22 + slop and not expNegative:
number = sign * integer.float * powtens[slop] * powtens[absExponent-slop]
return i - start
return i
# if failed: slow path with strtod.
var t: array[500, char] # flaviu says: 325 is the longest reasonable literal
@@ -209,8 +209,8 @@ proc nimParseBiggestFloat(s: string, number: var BiggestFloat,
let maxlen = t.high - "e+000".len # reserve enough space for exponent
let endPos = i
result = endPos - start
i = start
result = endPos
i = 0
# re-parse without error checking, any error should be handled by the code above.
if i < endPos and s[i] == '.': i.inc
while i < endPos and s[i] in {'0'..'9','+','-'}:

86
tests/stdlib/tparseutils.nim
View File

@@ -1,53 +1,59 @@
discard """
targets: "c cpp"
"""
import std/[parseutils, sequtils, sugar, formatfloat]
import std/assertions
proc test() =
let input = "$test{} $this is ${an{ example}} "
let expected = @[(ikVar, "test"), (ikStr, "{} "), (ikVar, "this"),
(ikStr, " is "), (ikExpr, "an{ example}"), (ikStr, " ")]
doAssert toSeq(interpolatedFragments(input)) == expected
let input = "$test{} $this is ${an{ example}} "
let expected = @[(ikVar, "test"), (ikStr, "{} "), (ikVar, "this"),
(ikStr, " is "), (ikExpr, "an{ example}"), (ikStr, " ")]
doAssert toSeq(interpolatedFragments(input)) == expected
var value = 0
discard parseHex("0x38", value)
doAssert value == 56
var value = 0
discard parseHex("0x38", value)
doAssert value == 56
value = -1
doAssert(parseSaturatedNatural("848", value) == 3)
doAssert value == 848
value = -1
doAssert(parseSaturatedNatural("848", value) == 3)
doAssert value == 848
value = -1
discard parseSaturatedNatural("84899999999999999999324234243143142342135435342532453", value)
doAssert value == high(int)
value = -1
discard parseSaturatedNatural("84899999999999999999324234243143142342135435342532453", value)
doAssert value == high(int)
value = -1
discard parseSaturatedNatural("9223372036854775808", value)
doAssert value == high(int)
value = -1
discard parseSaturatedNatural("9223372036854775808", value)
doAssert value == high(int)
value = -1
discard parseSaturatedNatural("9223372036854775807", value)
doAssert value == high(int)
value = -1
discard parseSaturatedNatural("9223372036854775807", value)
doAssert value == high(int)
value = -1
discard parseSaturatedNatural("18446744073709551616", value)
doAssert value == high(int)
value = -1
discard parseSaturatedNatural("18446744073709551616", value)
doAssert value == high(int)
value = -1
discard parseSaturatedNatural("18446744073709551615", value)
doAssert value == high(int)
value = -1
discard parseSaturatedNatural("18446744073709551615", value)
doAssert value == high(int)
value = -1
doAssert(parseSaturatedNatural("1_000_000", value) == 9)
doAssert value == 1_000_000
value = -1
doAssert(parseSaturatedNatural("1_000_000", value) == 9)
doAssert value == 1_000_000
var i64Value: int64
discard parseBiggestInt("9223372036854775807", i64Value)
doAssert i64Value == 9223372036854775807
var i64Value: int64
discard parseBiggestInt("9223372036854775807", i64Value)
doAssert i64Value == 9223372036854775807
block:
var f: float
let res = collect:
for x in ["9.123456789012345+","11.123456789012345+","9.123456789012345-","8.123456789012345+","9.12345678901234-","9.123456789012345"]:
(parseFloat(x, f, 0), $f)
doAssert res == @[(17, "9.123456789012344"), (18, "11.123456789012344"),
(17, "9.123456789012344"), (17, "8.123456789012344"),
(16, "9.12345678901234"), (17, "9.123456789012344")]
block:
var f: float
let res = collect:
for x in ["9.123456789012345+","11.123456789012345+","9.123456789012345-","8.123456789012345+","9.12345678901234-","9.123456789012345"]:
(parseFloat(x, f, 0), $f)
doAssert res == @[(17, "9.123456789012344"), (18, "11.123456789012344"),
(17, "9.123456789012344"), (17, "8.123456789012344"),
(16, "9.12345678901234"), (17, "9.123456789012344")]
test()
static: test()