JSON.au3

#include-once

; #INDEX# =======================================================================================================================
; Title .........: JSON-UDF
; Version .......: 0.10
; AutoIt Version : 3.3.16.1
; Language ......: english (german maybe by accident)
; Description ...: Function for interacting with JSON data in AutoIt.
;                  This includes import, export as well as helper functions for handling nested AutoIt data structures.
; Author(s) .....: AspirinJunkie, Sven Seyfert (SOLVE-SMART)
; Last changed ..: 2023-04-29
; Link ..........: https://autoit.de/thread/85435-json-udf/
; License .......: This work is free.
;                  You can redistribute it and/or modify it under the terms of the Do What The Fuck You Want To Public License, Version 2,
;                  as published by Sam Hocevar.
;                  See http://www.wtfpl.net/ for more details.
; ===============================================================================================================================

; #Function list# =======================================================================================================================
; ---- import and export from or to json ------
;  _JSON_Parse               - converts a JSON-structured string into a nested AutoIt data structure
;  _JSON_Generate            - converts a nested AutoIt data structure into a JSON structured string
;  _JSON_GenerateCompact     - shorthand for _JSON_Generate() to create JSON structured strings as compact as possible
;  _JSON_Unminify            - reads minified (compact) JSON file or string and converts to well readable JSON string
;  _JSON_Minify              - reads unminified (readable) JSON file or string and converts to minified (compact) JSON string
;
; ---- extraction and manipulation of nested AutoIt data structures ----
;  _JSON_Get                 - extract query nested AutoIt-datastructure with a simple selector string
;  _JSON_addChangeDelete     - create a nested AutoIt data structure, change values within existing structures or delete elements from a nested AutoIt data structure
;
; ---- helper functions ----
;      __JSON_FormatString   - converts a string into a json string by escaping the special symbols
;      __JSON_ParseString    - converts a json formatted string into an AutoIt-string by unescaping the json-escapes
;      __JSON_A2DToAinA      - converts a 2D array into a Arrays in Array
;      __JSON_AinAToA2d      - converts a Arrays in Array into a 2D array
;      __JSON_Base64Decode   - decode data which is coded as a base64-string into binary variable
;      __JSON_Base64Encode   - converts a binary- or string-Input into BASE64 (or optional base64url) format
; ===============================================================================================================================

#include <String.au3>

; #FUNCTION# ======================================================================================
; Name ..........: _JSON_Parse
; Description ...: convert a JSON-formatted string into a nested structure of AutoIt-datatypes
; Syntax ........: _JSON_Parse(ByRef $s_String, $i_Os = 1)
; Parameters ....: $s_String      - a string formatted as JSON
;                  [$i_Os]        - search position where to start (normally don't touch!)
; Return values .: Success - Return a nested structure of AutoIt-datatypes
;                       @extended = next string offset
;                  Failure - Return "" and set @error to:
;                       @error = 1 - part is not json-syntax
;                              = 2 - key name in object part is not json-syntax
;                              = 3 - value in object is not correct json
;                              = 4 - delimiter or object end expected but not gained
; Author ........: AspirinJunkie
; =================================================================================================
Func _JSON_Parse(ByRef $s_String, $i_Os = 1)
	Local $i_OsC = $i_Os, $o_Current, $o_Value
	; Inside a character class, \R is treated as an unrecognized escape sequence, and so matches the letter "R" by default, but causes an error if
	Local Static _ ; '\s' = [\x20\x09\x0A\x0D]
			$s_RE_G_String = '\G\s*"([^"\\]*+(?>\\.[^"\\]*+)*+)"', _ ; old variant: '\G\s*"((?>[^\\"]+|\\.)*+)"' - new one is more efficient coz it searches firstly for non quotes and bs - these are more unlikely
			$s_RE_G_Number = '\G\s*(-?(?>0|[1-9]\d*)(?>\.\d+)?(?>[eE][-+]?\d+)?)', _
			$s_RE_G_KeyWord = '\G\s*\b(null|true|false)\b', _
			$s_RE_G_Object_Begin = '\G\s*\{', _
			$s_RE_G_Object_Key = '\G\s*"((?>[^\\"]+|\\.)*+)"\s*:', _
			$s_RE_G_Object_Further = '\G\s*,', _
			$s_RE_G_Object_End = '\G\s*\}', _
			$s_RE_G_Array_Begin = '\G\s*\[', _
			$s_RE_G_Array_End = '\G\s*\]'

	$o_Current = StringRegExp($s_String, $s_RE_G_String, 1, $i_Os) ; String
	If Not @error Then Return SetExtended(@extended, __JSON_ParseString($o_Current[0]))


	StringRegExp($s_String, $s_RE_G_Object_Begin, 1, $i_Os) ; Object
	If Not @error Then
		$i_OsC = @extended
		Local $s_Key, $a_T

		Local $o_Current[]

		StringRegExp($s_String, $s_RE_G_Object_End, 1, $i_OsC)     ; check for empty object
		If Not @error Then     ; empty object
			$i_OsC = @extended
		Else
			Do
				$a_T = StringRegExp($s_String, $s_RE_G_Object_Key, 1, $i_OsC)     ; key of element
				If @error Then Return SetError(2, $i_OsC, "")
				$i_OsC = @extended

				$s_Key = __JSON_ParseString($a_T[0])

				$o_Value = _JSON_Parse($s_String, $i_OsC)
				If @error Then Return SetError(3, $i_OsC, "")
				$i_OsC = @extended

				$o_Current[$s_Key] = $o_Value     ; add key:value to map

				StringRegExp($s_String, $s_RE_G_Object_Further, 1, $i_OsC)     ; more elements
				If Not @error Then
					$i_OsC = @extended
					ContinueLoop
				Else
					StringRegExp($s_String, $s_RE_G_Object_End, 1, $i_OsC)     ; end of array
					If Not @error Then
						$i_OsC = @extended
						ExitLoop
					Else
						Return SetError(4, $i_OsC, "")
					EndIf
				EndIf
			Until False
		EndIf

		Return SetExtended($i_OsC, $o_Current)
	EndIf


	StringRegExp($s_String, $s_RE_G_Array_Begin, 1, $i_Os) ; Array
	If Not @error Then
		$i_OsC = @extended
		Local $o_Current[1], $d_N = 1, $i_C = 0

		StringRegExp($s_String, $s_RE_G_Array_End, 1, $i_OsC) ; check for empty array
		If Not @error Then ; empty array
			ReDim $o_Current[0]
			$i_OsC = @extended
			Return SetExtended($i_OsC, $o_Current)
		EndIf

		Do
			$o_Value = _JSON_Parse($s_String, $i_OsC)
			If @error Then Return SetError(3, $i_OsC, "")
			$i_OsC = @extended

			If $i_C = $d_N - 1 Then
				$d_N += $d_N  ; or *= 2
				ReDim $o_Current[$d_N]
			EndIf
			$o_Current[$i_C] = $o_Value
			$i_C += 1

			StringRegExp($s_String, $s_RE_G_Object_Further, 1, $i_OsC) ; more elements
			If Not @error Then
				$i_OsC = @extended
				ContinueLoop
			Else
				StringRegExp($s_String, $s_RE_G_Array_End, 1, $i_OsC) ; end of array
				If Not @error Then
					$i_OsC = @extended
					ExitLoop
				Else
					Return SetError(5, $i_OsC, "")
				EndIf
			EndIf

		Until False

		If UBound($o_Current) <> $i_C Then ReDim $o_Current[$i_C]
		Return SetExtended($i_OsC, $o_Current)
	EndIf

	$o_Current = StringRegExp($s_String, $s_RE_G_Number, 1, $i_Os) ; Number
	If Not @error Then Return SetExtended(@extended, Number($o_Current[0]))

	$o_Current = StringRegExp($s_String, $s_RE_G_KeyWord, 1, $i_Os) ; KeyWord
	If Not @error Then Return SetExtended(@extended, Execute($o_Current[0])) ; $o_Current[0] = "null" ? Null : $o_Current[0] = "true" ? True : False)

	Return SetError(1, $i_OsC, "")
EndFunc   ;==>_JSON_Parse


; #FUNCTION# ======================================================================================
; Name ..........: _JSON_Generate
; Description ...: converts a nested AutoIt data structure into a JSON structured string
; Syntax ........: _JSON_Generate($o_Object, $s_ObjIndent = @TAB, $s_ObjDelEl = @CRLF, $s_ObjDelKey = " ", $s_ObjDelVal = "", $s_ArrIndent = @TAB, $s_ArrDelEl = @CRLF, $i_Level = 0)
; Parameters ....: $o_Object      - [nested] AutoIt data structure
;                  [$s_ObjIndent] - indent for object elements (only reasonable if $s_ObjDelEl contains a line skip
;                  [$s_ObjDelEl]  - delimiter between object elements
;                  [$s_ObjDelKey] - delimiter between keyname and ":" in object
;                  [$s_ObjDelVal] - delimiter between ":" and value in object
;                  [$s_ArrIndent] - indent for array elements (only reasonable if $s_ArrDelEl contains a line skip)
;                  [$s_ArrDelEl]  - delimiter between array elements
;                  [$i_Level]     - search position where to start (normally don't touch!)
; Return values .: Success - Return a JSON formatted string
;                  Failure - Return ""
; Author ........: AspirinJunkie
; =================================================================================================
Func _JSON_Generate($o_Object, $s_ObjIndent = @TAB, $s_ObjDelEl = @CRLF, $s_ObjDelKey = "", $s_ObjDelVal = " ", $s_ArrIndent = @TAB, $s_ArrDelEl = @CRLF, $i_Level = 0)
	Local Static $s_JSON_String
	If $i_Level = 0 Then $s_JSON_String = ""

	Switch VarGetType($o_Object)
		Case "String"
			$s_JSON_String &= '"' & __JSON_FormatString($o_Object) & '"'
		Case "Int32", "Int64", "Float", "Double"
			$s_JSON_String &= String($o_Object)
		Case "Bool"
			$s_JSON_String &= StringLower($o_Object)
		Case "Keyword"
			If IsKeyword($o_Object) = 2 Then $s_JSON_String &= "null"
		Case "Binary"
			$s_JSON_String &= '"' & __JSON_Base64Encode($o_Object) & '"'
		Case "Array"
			If UBound($o_Object, 0) = 2 Then $o_Object = __JSON_A2DToAinA($o_Object)
			If UBound($o_Object) = 0 Then
				$s_JSON_String &= "[]"
			Else
				$s_JSON_String &= "[" & $s_ArrDelEl
				For $o_Value In $o_Object
					$s_JSON_String &= _StringRepeat($s_ArrIndent, $i_Level + 1)
					_JSON_Generate($o_Value, $s_ObjIndent, $s_ObjDelEl, $s_ObjDelKey, $s_ObjDelVal, $s_ArrIndent, $s_ArrDelEl, $i_Level + 1)

					$s_JSON_String &= "," & $s_ArrDelEl
				Next
				$s_JSON_String = StringTrimRight($s_JSON_String, StringLen("," & $s_ArrDelEl)) & $s_ArrDelEl & _StringRepeat($s_ArrIndent, $i_Level) & "]"
			EndIf
		Case "Object"
			If ObjName($o_Object) = "Dictionary" Then
				Local $s_KeyTemp, $o_Value
				If $o_Object.Count() = 0 Then
					$s_JSON_String &= "{}"
				Else
					$s_JSON_String &= "{" & $s_ObjDelEl
					For $s_Key In $o_Object.Keys
						$s_KeyTemp = $s_Key
						$o_Value = $o_Object($s_Key)

						$s_JSON_String &= _StringRepeat($s_ObjIndent, $i_Level + 1) & '"' & __JSON_FormatString($s_KeyTemp) & '"' & $s_ObjDelKey & ':' & $s_ObjDelVal

						_JSON_Generate($o_Value, $s_ObjIndent, $s_ObjDelEl, $s_ObjDelKey, $s_ObjDelVal, $s_ArrIndent, $s_ArrDelEl, $i_Level + 1)

						$s_JSON_String &= "," & $s_ObjDelEl
					Next
					$s_JSON_String = StringTrimRight($s_JSON_String, StringLen("," & $s_ObjDelEl)) & $s_ObjDelEl & _StringRepeat($s_ObjIndent, $i_Level) & "}"
				EndIf
			EndIf
		Case "Map"
			Local $s_KeyTemp, $o_Value
			If UBound($o_Object) = 0 Then
				$s_JSON_String &= "{}"
			Else
				$s_JSON_String &= "{" & $s_ObjDelEl
				For $s_Key In MapKeys($o_Object)
					$s_KeyTemp = $s_Key
					$o_Value = $o_Object[$s_Key]

					$s_JSON_String &= _StringRepeat($s_ObjIndent, $i_Level + 1) & '"' & __JSON_FormatString($s_KeyTemp) & '"' & $s_ObjDelKey & ':' & $s_ObjDelVal

					_JSON_Generate($o_Value, $s_ObjIndent, $s_ObjDelEl, $s_ObjDelKey, $s_ObjDelVal, $s_ArrIndent, $s_ArrDelEl, $i_Level + 1)

					$s_JSON_String &= "," & $s_ObjDelEl
				Next
				$s_JSON_String = StringTrimRight($s_JSON_String, StringLen("," & $s_ObjDelEl)) & $s_ObjDelEl & _StringRepeat($s_ObjIndent, $i_Level) & "}"
			EndIf
		Case "Ptr"
			$s_JSON_String &= String(Int($o_Object))
		Case "DLLStruct"
			Local $tBin = DllStructCreate("Byte[" & DllStructGetSize($o_Object) & "]", DllStructGetPtr($o_Object))
			$s_JSON_String &= '"' & __JSON_Base64Encode(DllStructGetData($tBin, 1)) & '"'
	EndSwitch

	If $i_Level = 0 Then
		Local $s_Temp = $s_JSON_String
		$s_JSON_String = ""
		Return $s_Temp
	EndIf
EndFunc   ;==>_JSON_Generate

; #FUNCTION# ====================================================================================================================
; Name ..........: _JSON_GenerateCompact
; Description ...: shorthand for _JSON_Generate()-parameters to produce a compact as possible JSON string
; Syntax ........: _JSON_GenerateCompact($o_Object)
; Parameters ....: $o_Object            - [nested] AutoIt data structure
; Return values .: Success - Return a JSON formatted string
;                  Failure - Return ""
; Author ........: AspirinJunkie
; Modified ......: 2023-05-23
; Related .......: _JSON_Generate
; ===============================================================================================================================
Func _JSON_GenerateCompact($o_Object)
	Return _JSON_Generate($o_Object, "", "", "", "", "", "")
EndFunc   ;==>_JSON_GenerateCompact

; #FUNCTION# ====================================================================================================================
; Name ..........: _JSON_Unminify
; Description ...: reads minified (compact) JSON file or string and converts to well readable JSON string
; Syntax ........: _JSON_Unminify($s_Input)
; Parameters ....: $s_Input - json file path/handle or json string
; Return values .: Success - Return a JSON formatted string
;                  Failure - Return "" and set @error to:
;                       @error = 1 - error during FileRead() - @extended = @error from FileRead()
;                              = 2 - no valid format for $s_Input
; Author ........: Sven Seyfert (SOLVE-SMART), AspirinJunkie
; Related .......: _JSON_Generate
; ===============================================================================================================================
Func _JSON_Unminify($s_Input)
	; read file if $sInput = file name or file handle
	If FileExists($s_Input) Or IsInt($s_Input) Then $s_Input = FileRead($s_Input)
	If @error Then Return SetError(1, @error, False)
	If Not IsString($s_Input) Then Return SetError(2, 0, False)

	Local Const $o_Object = _JSON_Parse($s_Input)
	Return _JSON_Generate($o_Object)
EndFunc   ;==>_JSON_Unminify

; #FUNCTION# ====================================================================================================================
; Name ..........: _JSON_Minify
; Description ...: reads unminified (readable) JSON file or string and converts to minified (compact) JSON string
; Syntax ........: _JSON_Minify($s_Input)
; Parameters ....: $s_Input - json file path/handle or json string
; Return values .: Success - Return a JSON formatted string
;                  Failure - Return "" and set @error to:
;                       @error = 1 - error during FileRead() - @extended = @error from FileRead()
;                              = 2 - no valid format for $s_Input
; Author ........: Sven Seyfert (SOLVE-SMART), AspirinJunkie
; Related .......: _JSON_GenerateCompact
; ===============================================================================================================================
Func _JSON_Minify($s_Input)
	; read file if $sInput = file name or file handle
	If FileExists($s_Input) Or IsInt($s_Input) Then $s_Input = FileRead($s_Input)
	If @error Then Return SetError(1, @error, False)
	If Not IsString($s_Input) Then Return SetError(2, 0, False)

	Local Const $o_Object = _JSON_Parse($s_Input)
	Return _JSON_GenerateCompact($o_Object)
EndFunc   ;==>_JSON_Minify

; #FUNCTION# ======================================================================================
; Name ..........: _JSON_Get
; Description ...: query nested AutoIt-datastructure with a simple query string with syntax:
;                  MapKey#1.MapKey#2.[ArrayIndex#1].MapKey#3... (points keynames can be achieved by "\.")
;                  multidimensional (2D or 3D only) array indices are separated through comma - e.g.: [2,3]
; Syntax ........: _JSON_Get(ByRef $o_Object, Const $s_Pattern)
; Parameters ....: $o_Object      - a nested AutoIt datastructure (Arrays, Dictionaries, basic scalar types)
;                  $s_Pattern     - query pattern like described above
; Return values .: Success - Return the queried object out of the nested datastructure
;                  Failure - Return "" and set @error to:
;                       @error = 1 - pattern is not correct
;                              = 2 - keyname query to none dictionary object
;                              = 3 - keyname queried not exists in dictionary
;                              = 4 - index query on none array object
;                              = 5 - index out of array range
;                              = 6 - number of subindices in index query not match array dimensions
;                              = 7 - more than 3 array dimensions are not supported
; Author ........: AspirinJunkie
; =================================================================================================
Func _JSON_Get(ByRef $o_Object, Const $s_Pattern)
	Local $o_Current = $o_Object, $d_Val
	Local $a_Tokens = StringRegExp($s_Pattern, '\[(\d+|[\d\h,]+)\]|((?>\\.|[^\.\[\]\\]+)+)', 4)
	If @error Then Return SetError(1, @error, "")

	For $a_CurToken In $a_Tokens

		If UBound($a_CurToken) = 3 Then ; KeyName
			$a_CurToken[2] = StringRegExpReplace($a_CurToken[2], '\\(.)', '$1')
			Switch VarGetType($o_Current)
				Case "Object"
					If Not IsObj($o_Current) Or ObjName($o_Current) <> "Dictionary" Then Return SetError(2, 0, "")
					If Not $o_Current.Exists($a_CurToken[2]) Then Return SetError(3, 0, "")

					$o_Current = $o_Current($a_CurToken[2])
				Case "Map"
					If Not MapExists($o_Current, $a_CurToken[2]) Then Return SetError(3, 0, "")

					$o_Current = $o_Current[$a_CurToken[2]]
			EndSwitch
		ElseIf UBound($a_CurToken) = 2 Then ; ArrayIndex
			If (Not IsArray($o_Current)) Then Return SetError(4, UBound($o_Current, 0), "")

			; multi dimensional array
			If StringInStr($a_CurToken[1], ',', 1) Then
				Local $aIndices = StringSplit($a_CurToken[1], ',', 3)
				If UBound($aIndices) <> UBound($o_Current, 0) Then Return SetError(6, UBound($o_Current, 0), "")

				; get the indices and check their range
				Local $x = Int($aIndices[0]), $y = Int($aIndices[1])
				If $x < 0 Or $x >= UBound($o_Current, 1) Then Return SetError(5, $x, "")
				If $y < 0 Or $y >= UBound($o_Current, 2) Then Return SetError(5, $y, "")
				Switch UBound($aIndices)
					Case 2 ; 2D array
						$o_Current = $o_Current[$x][$y]
					Case 3 ; 3D array
						Local $z = Int($aIndices[2])
						If $z < 0 Or $z >= UBound($o_Current, 3) Then Return SetError(5, $z, "")
						$o_Current = $o_Current[$x][$y][$z]
					Case Else
						Return SetError(7, @error, "")
				EndSwitch

				; 1D array
			Else
				If UBound($o_Current, 0) <> 1 Then Return SetError(6, UBound($o_Current, 0), "")
				$d_Val = Int($a_CurToken[1])
				If $d_Val < 0 Or $d_Val >= UBound($o_Current) Then Return SetError(5, $d_Val, "")
				$o_Current = $o_Current[$d_Val]
			EndIf
		EndIf
	Next
	Return $o_Current
EndFunc   ;==>_JSON_Get


; #FUNCTION# ======================================================================================
; Name ..........: _JSON_addChangeDelete
; Description ...: creates, modifies or deletes within nested AutoIt structures with a simple query string with syntax:
;                  MapKey#1.MapKey#2.[ArrayIndex#1].MapKey#3...  (points keynames can be achieved by "\.")
;                  If the specified structure already exists, then the function overwrite the existing data.
;                  If the specified structure not exists, then the functions creates this structure.
;                  If $vVal = Default, then the function deletes this specific data point inside the structure.
; Syntax ........: _JSON_addChangeDelete(ByRef $oObject, Const $sPattern, Const $vVal = Default [, Const $iRecLevel = 0])
; Parameters ....: $oObject    - a nested AutoIt datastructure (Arrays, Maps, basic scalar types etc.)
;                                in which the structure is to be created or data is to be changed or deleted
;                  $sPattern   - query pattern like described above
;                  $vVal       - the value which should be written at the position in $sPattern
;                              - if $vVal = Default then the position in $sPattern is to be deleted
;                  $iRecLevel  - don't touch! - only for internal purposes
; Return values .: Success - Return True
;                  Failure - Return False and set @error to:
;                       @error = 1 - pattern is not correct
;                       @error = 2 - wrong index for array element
; Author ........: AspirinJunkie
; =================================================================================================
Func _JSON_addChangeDelete(ByRef $oObject, Const $sPattern, Const $vVal = Default, Const $iRecLevel = 0)
	Local Static $aLevels[0]

	; only on highest recursion level: process the selector string
	If $iRecLevel = 0 Then
		Local $aToken = StringRegExp($sPattern, '\[(\d+)\]|((?>\\.|[^\.\[\]\\]+)+)', 4)
		If @error Then Return SetError(1, @error, "")

		Local $aCurToken

		ReDim $aLevels[UBound($aToken) + 1][2]
		For $i = 0 To UBound($aToken) - 1
			$aCurToken = $aToken[$i]
			If UBound($aCurToken) = 3 Then ; KeyName
				$aLevels[$i][0] = "Map"
				$aLevels[$i][1] = StringRegExpReplace($aCurToken[2], '\\(.)', '$1')
			Else ; Array Index
				$aLevels[$i][0] = "Array"
				$aLevels[$i][1] = Int($aCurToken[1])
			EndIf
		Next
		$aLevels[UBound($aLevels) - 1][0] = "end"
	EndIf

	; If data structure not exists already - build it as stated in the selector string:
	Local $sCurrenttype = $aLevels[$iRecLevel][0]
	If $sCurrenttype <> VarGetType($oObject) Then
		Switch $sCurrenttype
			Case "Map"
				Local $mTmp[]
				$oObject = $mTmp
			Case "Array"
				Local $aTmp[$aLevels[$iRecLevel][1] + 1]
				$oObject = $aTmp
			Case "end"
				Return $vVal
		EndSwitch
	EndIf

	; special case treatment for arrays
	If $sCurrenttype = "Array" Then
		If UBound($oObject, 0) <> 1 Then
			Local $aTmp[$aLevels[$iRecLevel][1] + 1]
			$oObject = $aTmp
		ElseIf UBound($oObject) < ($aLevels[$iRecLevel][1] + 1) Then
			ReDim $oObject[$aLevels[$iRecLevel][1] + 1]
		EndIf
	EndIf

	; create or change the objects in the next hierarchical level and use these as value for the current entry
	Local $vTmp = $oObject[$aLevels[$iRecLevel][1]], _
			$oNext = _JSON_addChangeDelete($vTmp, $sPattern, $vVal, $iRecLevel + 1)

	If $oNext = Default Then ; delete the current level
		Switch $sCurrenttype
			Case "Map"
				MapRemove($oObject, $aLevels[$iRecLevel][1])
			Case "Array"
				Local $iInd = $aLevels[$iRecLevel][1], $nElems = UBound($oObject)

				If $iInd < 0 Or $iInd >= $nElems Then Return SetError(2, @error, "")

				For $i = $iInd To $nElems - 2
					$oObject[$i] = $oObject[$i + 1]
				Next
				ReDim $oObject[$nElems - 1]
			Case Else
				$oObject[$aLevels[$iRecLevel][1]] = ""
				For $j = UBound($oObject) - 1 To 0 Step -1
					If $oObject[$j] <> "" Then
						ReDim $oObject[$j + 1]
						ExitLoop
					EndIf
				Next
		EndSwitch
	Else
		$oObject[$aLevels[$iRecLevel][1]] = $oNext
	EndIf

	If $iRecLevel > 0 Then
		Return $oObject
	Else
		ReDim $aLevels[0] ; clean
		Return True
	EndIf
EndFunc   ;==>_JSON_addChangeDelete

; helper function for converting a json formatted string into an AutoIt-string
; slower variant of __JSON_ParseString but also can handle large strings
Func __JSON_ParseString(ByRef $s_String)
	Local $aB[5]

	Local $a_RE = StringRegExp($s_String, '\\\\(*SKIP)(*FAIL)|(\\["bf/]|\\u[[:xdigit:]]{4})', 3)
	If Not @error Then
		For $s_Esc In $a_RE
			Switch StringMid($s_Esc, 2, 1)
				Case "b"
					If $aB[0] Then ContinueLoop
					$s_String = StringRegExpReplace($s_String, '\\\\(*SKIP)(*FAIL)|\\b', Chr(8))
					$aB[0] = True
				Case "f"
					If $aB[1] Then ContinueLoop
					$s_String = StringRegExpReplace($s_String, '\\\\(*SKIP)(*FAIL)|\\f', Chr(12))
					$aB[1] = True
				Case "/"
					If $aB[2] Then ContinueLoop
					$s_String = StringRegExpReplace($s_String, '\\\\(*SKIP)(*FAIL)|\\/', "/")
					$aB[2] = True
				Case '"'
					If $aB[3] Then ContinueLoop
					$s_String = StringRegExpReplace($s_String, '\\\\(*SKIP)(*FAIL)|\\"', '"')
					$aB[3] = True
				Case "u"
					If $aB[4] Then ContinueLoop
					$a_RE = StringRegExp($s_String, '\\\\(*SKIP)(*FAIL)|\\u\K[[:xdigit:]]{4}', 3)
					If Not @error Then
						If UBound($a_RE) > 10 Then
							Local $mCodes[]
							For $s_Code In $a_RE
								If MapExists($mCodes, $s_Code) Then ContinueLoop
								$s_String = StringReplace($s_String, "\u" & $s_Code, ChrW(Dec($s_Code)), 0, 1)
								$mCodes[$s_Code] = ""
							Next
						Else
							For $s_Code In $a_RE
								$s_String = StringReplace($s_String, "\u" & $s_Code, ChrW(Dec($s_Code)), 0, 1)
							Next
						EndIf
						$aB[4] = True
					EndIf
			EndSwitch
		Next
	EndIf

	; converts \n \r \t \\ implicit:
	Return StringFormat(StringReplace($s_String, "%", "%%", 0, 1))
EndFunc   ;==>__JSON_ParseString

; helper function for converting a AutoIt-string into a json formatted string
Func __JSON_FormatString(ByRef $sString)
	Return StringLen($sString) < 50 ? _
	StringTrimRight(StringRegExpReplace($sString & '\\\b\f\n\r\t\"', '(?s)(?|\\(?=.*(\\\\))|[\b](?=.*(\\b))|\f(?=.*(\\f))|\r\n(?=.*(\\n))|\n(?=.*(\\n))|\r(?=.*(\\r))|\t(?=.*(\\t))|"(?=.*(\\")))', '\1'), 15) : _
	StringReplace( _
		StringReplace( _
			StringReplace( _
				StringReplace( _
					StringReplace( _
						StringReplace( _
							StringReplace( _
								StringReplace($sString, '\', '\\', 0, 1) _
							, Chr(8), "\b", 0, 1) _
						, Chr(12), "\f", 0, 1) _
					, @CRLF, "\n", 0, 1) _
				, @LF, "\n", 0, 1) _
			, @CR, "\r", 0, 1) _
		, @TAB, "\t", 0, 1) _
	, '"', '\"', 0, 1)
EndFunc


; #FUNCTION# ======================================================================================
; Name ..........: __JSON_Base64Encode
; Description ...: convert a binary- or string-Input into BASE64 (or optional base64url) format
;                  mainly a wrapper for the CryptBinaryToString API-function
; Syntax ........: __JSON_Base64Encode(Const ByRef $s_Input, [Const $b_base64url = False])
; Parameters ....: $s_Input       - binary data or string which should be converted
;                  [$b_base64url] - If true the output is in base64url-format instead of base64
; Return values .: Success - Return base64 (or base64url) formatted string
;                  Failure - Return "" and set @error to:
;                       @error = 1 - failure at the first run to calculate the output size
;                              = 2 - failure at the second run to calculate the output
; Author ........: AspirinJunkie
; Example .......: Yes
;                  $s_Base64String = __JSON_Base64Encode("This is my test")
; =================================================================================================
Func __JSON_Base64Encode(Const ByRef $s_Input, Const $b_base64url = False)
	Local $b_Input = IsBinary($s_Input) ? $s_Input : Binary($s_Input)

	Local $t_BinArray = DllStructCreate("BYTE[" & BinaryLen($s_Input) & "]")
	DllStructSetData($t_BinArray, 1, $b_Input)

	Local $h_DLL_Crypt32 = DllOpen("Crypt32.dll")

	; first run to calculate needed size of output buffer
	Local $a_Ret = DllCall($h_DLL_Crypt32, "BOOLEAN", "CryptBinaryToString", _
			"STRUCT*", $t_BinArray, _     ; *pbBinary
			"DWORD", DllStructGetSize($t_BinArray), _     ; cbBinary
			"DWORD", 0x40000001, _     ; dwFlags
			"PTR", Null, _ ; pszString
			"DWORD*", 0)
	If @error Or Not IsArray($a_Ret) Or $a_Ret[0] = 0 Then Return SetError(1, @error, DllClose($h_DLL_Crypt32))

	; second run to calculate base64-string:
	Local $t_Output = DllStructCreate("CHAR Out[" & $a_Ret[5] & "]")
	Local $a_Ret2 = DllCall($h_DLL_Crypt32, "BOOLEAN", "CryptBinaryToString", _
			"STRUCT*", $t_BinArray, _     ; *pbBinary
			"DWORD", DllStructGetSize($t_BinArray), _     ; cbBinary
			"DWORD", 0x40000001, _     ; dwFlags
			"STRUCT*", $t_Output, _ ; pszString
			"DWORD*", $a_Ret[5])
	If @error Or Not IsArray($a_Ret2) Or $a_Ret2[0] = 0 Then Return SetError(2, @error, DllClose($h_DLL_Crypt32))

	Local $s_Output = $t_Output.Out
	If StringInStr($s_Output, "=", 1, 1) Then $s_Output = StringLeft($s_Output, StringInStr($s_Output, "=", 1, 1) - 1)

	If $b_base64url Then $s_Output = StringReplace(StringReplace($s_Output, "/", "_", 0, 1), "+", "-", 0, 1)

	DllClose($h_DLL_Crypt32)
	Return $s_Output
EndFunc   ;==>__JSON_Base64Encode


; #FUNCTION# ======================================================================================
; Name ..........: __JSON_Base64Decode
; Description ...: decode data which is coded as a base64-string into binary form
;                  mainly a wrapper for the CryptStringToBinary API-function
; Syntax ........: __JSON_Base64Decode(Const ByRef $s_Input, [Const $b_base64url = False])
; Parameters ....: $s_Input       - string in base64-format
;                  [$b_base64url] - If true the output is in base64url-format instead of base64
; Return values .: Success - Return base64 (or base64url) formatted string
;                  Failure - Return "" and set @error to:
;                       @error = 1 - failure at the first run to calculate the output size
;                              = 2 - failure at the second run to calculate the output
; Author ........: AspirinJunkie
; Example .......: Yes
;                  MsgBox(0, '', BinaryToString(__JSON_Base64Decode("VGVzdA")))
; =================================================================================================
Func __JSON_Base64Decode(Const ByRef $s_Input, Const $b_base64url = False)
	Local $h_DLL_Crypt32 = DllOpen("Crypt32.dll")

	; hier noch einen Reg-Ex zum testen ob String base64-codiert ist

	; first run to calculate needed size of output buffer
	Local $a_Ret = DllCall($h_DLL_Crypt32, "BOOLEAN", "CryptStringToBinary", _
			"STR", $s_Input, _ ; pszString
			"DWORD", 0, _ ; cchString
			"DWORD", 1, _ ; dwFlags
			"PTR", Null, _ ; pbBinary
			"DWORD*", 0, _ ; pcbBinary
			"PTR", Null, _ ; pdwSkip
			"PTR", Null) ; pdwFlags
	Local $t_Ret = DllStructCreate("BYTE Out[" & $a_Ret[5] & "]")
	If @error Or Not IsArray($a_Ret) Or $a_Ret[0] = 0 Then Return SetError(1, @error, DllClose($h_DLL_Crypt32))


	; second run to calculate the output data:
	Local $a_Ret2 = DllCall($h_DLL_Crypt32, "BOOLEAN", "CryptStringToBinary", _
			"STR", $s_Input, _ ; pszString
			"DWORD", 0, _ ; cchString
			"DWORD", 1, _ ; dwFlags
			"STRUCT*", $t_Ret, _ ; pbBinary
			"DWORD*", $a_Ret[5], _ ; pcbBinary
			"PTR", Null, _ ; pdwSkip
			"PTR", Null) ; pdwFlags
	If @error Or Not IsArray($a_Ret2) Or $a_Ret2[0] = 0 Then Return SetError(2, @error, DllClose($h_DLL_Crypt32))
	DllClose($h_DLL_Crypt32)

	Local $s_Output = $t_Ret.Out
	If $b_base64url Then $s_Output = StringReplace(StringReplace($s_Output, "_", "/", 0, 1), "-", "+", 0, 1)

	Return $s_Output
EndFunc   ;==>__JSON_Base64Decode

; #FUNCTION# ======================================================================================
; Name ..........: __JSON_A2DToAinA()
; Description ...: Convert a 2D array into a Arrays in Array
; Syntax ........: __JSON_A2DToAinA(ByRef $A)
; Parameters ....: $A             - the 2D-Array  which should be converted
; Return values .: Success: a Arrays in Array build from the input array
;                  Failure: False
;                     @error = 1: $A is'nt an 2D array
; Author ........: AspirinJunkie
; =================================================================================================
Func __JSON_A2DToAinA(ByRef $A, $bTruncEmpty = True)
	If UBound($A, 0) <> 2 Then Return SetError(1, UBound($A, 0), False)
	Local $N = UBound($A), $u = UBound($A, 2)
	Local $a_Ret[$N]

	If $bTruncEmpty Then
		For $i = 0 To $N - 1
			Local $x = $u - 1
			While IsString($A[$i][$x]) And $A[$i][$x] = ""
				$x -= 1
			WEnd
			Local $t[$x + 1]
			For $j = 0 To $x
				$t[$j] = $A[$i][$j]
			Next
			$a_Ret[$i] = $t
		Next
	Else
		For $i = 0 To $N - 1
			Local $t[$u]
			For $j = 0 To $u - 1
				$t[$j] = $A[$i][$j]
			Next
			$a_Ret[$i] = $t
		Next
	EndIf
	Return $a_Ret
EndFunc   ;==>__JSON_A2DToAinA

; #FUNCTION# ======================================================================================
; Name ..........: __JSON_AinAToA2d()
; Description ...: Convert a Arrays in Array into a 2D array
;                  here useful if you want to recover 2D-arrays from a json-string
;                  (there exists only a array-in-array and no 2D-Arrays)
; Syntax ........: __JSON_AinAToA2d(ByRef $A)
; Parameters ....: $A             - the arrays in array which should be converted
; Return values .: Success: a 2D Array build from the input array
;                  Failure: False
;                     @error = 1: $A is'nt an 1D array
;                            = 2: $A is empty
;                            = 3: first element isn't a array
; Author ........: AspirinJunkie
; =================================================================================================
Func __JSON_AinAToA2d(ByRef $A)
	If UBound($A, 0) <> 1 Then Return SetError(1, UBound($A, 0), False)
	Local $N = UBound($A)
	If $N < 1 Then Return SetError(2, $N, False)
	Local $u = UBound($A[0])
	If $u < 1 Then Return SetError(3, $u, False)

	Local $a_Ret[$N][$u]

	For $i = 0 To $N - 1
		Local $t = $A[$i]
		If UBound($t) > $u Then ReDim $a_Ret[$N][UBound($t)]
		For $j = 0 To UBound($t) - 1
			$a_Ret[$i][$j] = $t[$j]
		Next
	Next
	Return $a_Ret
EndFunc   ;==>__JSON_AinAToA2d