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t  u  v  w  x  y  z  {  |  }  ~    €  پ  ‚  ƒ  „  …  †  ‡  ˆ  ‰  ٹ  ‹  Œ  چ  ژ  ڈ  گ  ‘  ’  “  ”  •  –  —  ک  ™  ڑ  ›  œ  ‌  ‍  ں     ،  ¢  £  ¤  ¥  ¦  §  ¨  ©  ھ  «  ¬  ­  ®  ¯  °  ±  ²  ³  ´  µ  ¶  ·  ¸  ¹  ؛  »  ¼  ½  ¾  ؟  ہ  ء  	آ  	أ  	ؤ  	إ  	ئ  	ا  	ب  	ة  	ت  	ث  	     	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalunknownSafe-Inferred   ,  memory.A simple Extended Word128 composed of 2 Word64          	BSD-style#Vincent Hanquez <vincent@snarc.org>stableGoodNone   ‹ج memoryôperform io for hashes that do allocation and ffi.
 unsafeDupablePerformIO is used when possible as the
 computation is pure and the output is directly linked
 to the input. we also do not modify anything after it has
 been returned to the user. حخدذرزج        	BSD-style#Vincent Hanquez <vincent@snarc.org>stablegoodNone خ   „	 memory(Class of types that can be byte-swapped.e.g. Word16, Word32, Word64 memoryBig Endian value memoryLittle Endian value memoryrepresent the CPU endiannessپBig endian system stores bytes with the MSB as the first byte.
 Little endian system stores bytes with the LSB as the first byte.#middle endian is purposely avoided. memoryReturn the system endianness memory.Convert a value in cpu endianess to big endian memory5Convert from a big endian value to the cpu endianness memory1Convert a value in cpu endianess to little endian memory8Convert from a little endian value to the cpu endianness 	
	
       	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalgoodNone3  
z memorySiphash tag value  memorySigHash Keyس memory;produce a siphash with a key and a memory pointer + length.ش memorysame as  سص , except also specifies the number of sipround iterations for compression and digest.ش  memory	siphash C memory	siphash D memorykey for the hash memorymemory pointer memorylength of the data !سش        	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalunknownNone ا ش ظ   " memory)Transform a raw memory to an hexadecimal  صuser beware, no checks are made# memory'Transform a number of bytes pointed by.0src in the hexadecimal binary representation in dstـ destination memory need to be of correct size, otherwise it will lead
 to really bad things.$ memoryconvert a base16 src in dst.n need to even"  memorya with1 type of function to hold reference to the object memorylength in bytes#  memorydestination memory memorysource memory memorynumber of bytes"#$"#$       	BSD-style#Vincent Hanquez <vincent@snarc.org>stableCompatNone ا   4ض memory$byteswap Word# to or from Big Endian0on a big endian machine, this function is a nop.× memory'byteswap Word# to or from Little Endian3on a little endian machine, this function is a nop.ط memoryض Simple compatibility for byteswap the lower 32 bits of a Word#
 at the primitive levelظ memoryً Simple wrapper to handle pre 7.8 and future, where
 most comparaison functions don't returns a boolean
 anymore. ض×طظ        	BSD-style&Nicolas DI PRIMA <nicolas@di-prima.fr>experimentalunknownNone ا ش ظ   6% memory'Transform a number of bytes pointed by.+src in the base32 binary representation in dstـ destination memory need to be of correct size, otherwise it will lead
 to really bad things.& memoryا Get the length needed for the destination buffer for a base32 decoding.9if the length is not a multiple of 8, Nothing is returned' memoryconvert from base32 in src to binary in (dst, using the number of bytes specified‹the user should use unBase32Length to compute the correct length, or check that
 the length specification is proper. no check is done here.%  memoryinput memoryoutput memory	input len%&'%&'       	BSD-style#Vincent Hanquez <vincent@snarc.org>stableCompatNone ا   ڑ  عغـفقكàلâمنهوçèéêëىيîïًٌٍَôُِ÷        	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalunknownSafe-Inferred   A  ّù        	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalunknownSafe-Inferred   °  1ْûü‎‏ے€پ‚ƒ„…†‡ˆ‰ٹ‹Œچژڈگ‘’“”•–—ک™ڑحخد›œ‌‍ں ،¢£¤¥ّù        	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalgoodNoneا خ   ق( memoryFNV1(a) hash (64 bit variants)* memoryFNV1(a) hash (32 bit variants)¦ memory6compute FNV1 (32 bit variant) of a raw piece of memory§ memory7compute FNV1a (32 bit variant) of a raw piece of memory¨ memory6compute FNV1 (64 bit variant) of a raw piece of memory© memory7compute FNV1a (64 bit variant) of a raw piece of memory ()*+¦§¨©        	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalunknownNone ا ش ظ   , memory'Transform a number of bytes pointed by src$ to base64 binary representation in dstà The destination memory need to be of correct size, otherwise it will lead
 to really bad things.- memory'Transform a number of bytes pointed by src/ to, URL-safe base64 binary
 representation in dstت . The result will be either padded or unpadded,
 depending on the boolean padded
 argument.à The destination memory need to be of correct size, otherwise it will lead
 to really bad things./ memoryا Get the length needed for the destination buffer for a base64 decoding.9if the length is not a multiple of 4, Nothing is returned0 memory9Get the length needed for the destination buffer for an
 .http://tools.ietf.org/html/rfc4648#section-3.2unpadded base64 decoding.…If the length of the encoded string is a multiple of 4, plus one, Nothing is
 returned. Any other value can be valid without padding.3 memoryconvert from base64 in src to binary in dst%, using the number of bytes specified‹the user should use unBase64Length to compute the correct length, or check that
 the length specification is proper. no check is done here. ,-./0123,-./0321      (c) Vincent Hanquez 2014	BSD-styleVincent Hanquezprovisionalnon-portable (requires POSIX)None   "ھ memoryMemory synchronization flags« memoryperform asynchronous write.¬ memoryperform synchronous write.­ memoryinvalidate cache data.® memoryAdvice to put on memory.only define the posix one.¯ memory no specific advice, the default.° memoryآ Expect page references in random order. No readahead should occur.± memoryز Expect page references in sequential order. Page should be readahead aggressively.² memoryة Expect access in the near future. Probably a good idea to readahead early³ memory(Do not expect access in the near future.´ memoryMemory protectionµ memoryMapping flag¶ memory)memory changes are shared between process· memory%memory changes are private to process¸ memoryMap pages of memory.ِ If fd is present, this memory will represent the file associated.
 Otherwise, the memory will be an anonymous mapping.use mmap¹ memoryUnmap pages of memoryuse munmap؛ memory7give advice to the operating system about use of memorycall madvise» memory%lock a range of process address spacecall mlock¼ memory'unlock a range of process address spacecall munlock½ memory set protection of memory mappingcall mprotect¾ memory4memorySync synchronize memory with physical storage.إ On an anonymous mapping this function doesn't have any effect.
 call msync؟ memory&Return the operating system page size.call sysconf¸  memory*The address to map to if MapFixed is used. memoryThe length of the mapping memory1the memory protection associated with the mapping memory ھ«¬­®¯°±²³´ہءآأµ¶·¸¹؛»¼½¾؟        	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalunknownSafe-Inferredا   &6	4 memoryCreate a new temporary buffer5 memory1xor bytes from source1 and source2 to destinationd = s1 xor s22s1, nor s2 are modified unless d point to s1 or s26 memory:xor bytes from source with a specific value to destinationd = replicate (sizeof s) v  ؤ s7 memory Copy a set number of bytes from src to dst8 memorySet $n number of bytes to the same value v9 memory#Reverse a set number of bytes from src to dst(.  Memory
 locations should not overlap.: memory'Check if two piece of memory are equals; memory8Compare two piece of memory and returns how they compare< memory2A constant time equality test for 2 Memory buffers¯compared to normal equality function, this function will go
 over all the bytes present before yielding a result even when
 knowing the overall result early in the processing. 	456789:;<	456789:<;       	BSD-style#Vincent Hanquez <vincent@snarc.org>stableGoodNone
 ة ش ض × ظ   (l= memory0Class to allocate new ByteArray of specific size> memory	allocate n& bytes and perform the given operation? memory7Class to Access size properties and data of a ByteArray@ memory)Return the length in bytes of a bytearrayA memoryAllow to use using a pointerB memory%Copy the data of a bytearray to a ptr>  memoryخ number of bytes to allocate. i.e. might not match the
 size of the given type ba.=>?@AB        	BSD-style#Vincent Hanquez <vincent@snarc.org>stableGoodNone   *…C memory*A simple abstraction to a piece of memory.و Do beware that garbage collection related to
 piece of memory could be triggered before this
 is used.ط Only use with the appropriate handler has been
 used (e.g. withForeignPtr on ForeignPtr)إ memory>Increase the memory view while reducing the size of the windowë this is useful as an abtraction to represent the current offset
 in a buffer, and the remaining bytes left. CDإ       !Copyright © 2014 Nicolas DI PRIMA	BSD-Style#Vincent Hanquez <vincent@snarc.org>experimentalunknownNone   +ًE memorySimple ByteArray PackerF memoryPacking result:=PackerMore: the next state of Packing with an arbitrary valuePackerFail: an error happenedئ memoryrun a sized actionا memoryrun a sized action EبةFGHئا        	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalgoodNone  .دI memory8Compute the SipHash tag of a byte array for a given key. I# is equivalent to 'sipHashWith 2 4'J memory8Compute the SipHash tag of a byte array for a given key.2The user can choose the C and D numbers of rounds.calling  I# is equivalent to 'sipHashWith 2 4'K memory2Compute the FNV1 32 bit hash value of a byte arrayL memory3Compute the FNV1a 32 bit hash value of a byte arrayM memory2Compute the FNV1 64 bit hash value of a byte arrayN memory3Compute the FNV1a 64 bit hash value of a byte arrayJ  memoryc rounds memoryd rounds memorykey memorydata to hash !()*+IJKLMN !IJ*+()KLMN    
   	BSD-style*Nicolas Di Prima <nicolas@primetype.co.uk>stableGoodNone  />?ہ ء آ ؤ ة خ ض × ظ ى   7ّO memoryآ Wrapper around any collection type with the size as type parameterQ memory/Type class to emulate exactly the behaviour of  =) but with
 a known length at compile timeR memory
just like  R$ but with the size at the type levelS memory	create a  O from the given  ?- if the
 size is the same as the target size.T memoryjust like the  S9 function but throw an exception if
 the size is invalid.U memoryر Allocate a new bytearray of specific size, and run the initializer on this memoryV memoryر Allocate a new bytearray of specific size, and run the initializer on this memoryW memorysimilar to allocN: but hide the allocation and initializer in a pure contextX memorysimilar to createN: but hide the allocation and initializer in a pure contextZ memoryCreate an empty byte array[ memory%Pack a list of bytes into a bytearray\ memory(Un-pack a bytearray into a list of bytes] memory%prepend a single byte to a byte array^ memory$append a single byte to a byte array_ memory&Create a xor of bytes between a and b.9the returns byte array is the size of the smallest input.` memoryہ return a specific byte indexed by a number from 0 in a bytearray"unsafe, no bound checking are donea memory7Split a bytearray at a specific length in two bytearrayb memoryTake the first n byte of a bytearrayc memorydrop the first n byte of a bytearrayd memory!append one bytearray to the othere memoryت Duplicate a bytearray into another bytearray, and run an initializer on itf memorySimilar to  e> but also provide a way to return a value from the initializerg memorySimiliar to  e5 but expect the resulting bytearray in a pure contexth memoryئ Create a bytearray of a specific size containing a repeated byte valuei memory6Create a bytearray of a specific size initialized to 0j memory0Convert a bytearray to another type of bytearrayk memory6Convert a ByteArrayAccess to another type of bytearray;This function returns nothing if the size is not compatiblel memory6Convert a ByteArrayAccess to another type of bytearray OPQRSTUVWXYZ[\]^_`abcdefghijklQROPSTUVWXYZ[\]^_`abcdefghijkl       	BSD-style#Vincent Hanquez <vincent@snarc.org>StableGHCNone 3ا   9jt memory=ScrubbedBytes is a memory chunk which have the properties of:+Being scrubbed after its goes out of scope.6A Show instance that doesn't actually show any content#A Eq instance that is constant time t        	BSD-style#Vincent Hanquez <vincent@snarc.org>stableGoodNone   Cضu memoryر Allocate a new bytearray of specific size, and run the initializer on this memoryv memoryر Allocate a new bytearray of specific size, and run the initializer on this memoryw memorysimilar to  u: but hide the allocation and initializer in a pure contextx memorysimilar to  v: but hide the allocation and initializer in a pure contexty memoryCreate an empty byte arrayz memoryCheck if a byte array is empty{ memory%Pack a list of bytes into a bytearray| memory(Un-pack a bytearray into a list of bytes} memoryذ returns the first byte, and the remaining bytearray if the bytearray is not null~ memory&Create a byte array from a single byte memory%prepend a single byte to a byte array€ memory$append a single byte to a byte arrayپ memory&Create a xor of bytes between a and b.9the returns byte array is the size of the smallest input.‚ memoryہ return a specific byte indexed by a number from 0 in a bytearray"unsafe, no bound checking are doneƒ memory7Split a bytearray at a specific length in two bytearray„ memoryTake the first n byte of a bytearray… memorydrop the first n byte of a bytearray† memory%Split a bytearray at the point where pred becomes invalid‡ memoryReverse a bytearrayˆ memory-Concatenate bytearray into a larger bytearray‰ memory!append one bytearray to the otherٹ memoryت Duplicate a bytearray into another bytearray, and run an initializer on it‹ memorySimilar to  ٹ> but also provide a way to return a value from the initializerŒ memorySimiliar to  ٹ5 but expect the resulting bytearray in a pure contextچ memoryئ Create a bytearray of a specific size containing a repeated byte valueژ memory6Create a bytearray of a specific size initialized to 0ڈ memory!Check if two bytearray are equalsص This is not constant time, as soon some byte differs the function will
 returns. use  گ+ in sensitive context where timing matters.گ memory;A constant time equality test for 2 ByteArrayAccess values.ك If values are of 2 different sizes, the function will abort early
 without comparing any bytes.ڑcompared to == , this function will go over all the bytes
 present before yielding a result even when knowing the
 overall result early in the processing.‘ memory:Check if any element of a byte array satisfies a predicate’ memory9Check if all elements of a byte array satisfy a predicate“ memory0Convert a bytearray to another type of bytearray uvwxyz{|}~€پ‚ƒ„…†‡ˆ‰ٹ‹Œچژڈگ‘’“        	BSD-style&Nicolas DI PRIMA <nicolas@di-prima.fr>stableGoodNone   G” memorya view on a given bytesEquality test in constant time• memory"create a view on a given bytearrayأ This function update the offset and the size in order to guarantee:offset >= 0	size >= 0offset < lengthsize =< length - offset– memory&create a view from the given bytearray— memory× create a view from the given byte array
 starting after having dropped the fist n bytes•  memorythe byte array we put a view on memory%the offset to start the byte array on memorythe size of the view–  memory	byte aray memorysize of the view—  memory
byte array memory7the number of bytes do dropped before creating the view”•–—        	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalportableNone  ش ظ   Mک memory"Simple ByteString parser structure™ memory3Simple parsing result, that represent respectively:failure: with the error message+continuation: that need for more input data9success: the remaining unparsed data and the parser value‌ memory&Run a parser on an @initial byteArray.ü If the Parser need more data than available, the @feeder function
 is automatically called and fed to the More continuation.‍ memory*Run a Parser on a ByteString and return a  ™  memory!Get the next byte from the parser، memory)Parse a specific byte at current positionر if the byte is different than the expected on,
 this parser will raise a failure.¢ memory/Parse a sequence of bytes from current positionç if the following bytes don't match the expected
 bytestring completely, the parser will raise a failure£ memory7Take a storable from the current position in the stream¤ memory5Take @n bytes from the current position in the stream¥ memoryج Take bytes while the @predicate hold from the current position in the stream¦ memoryہ Take the remaining bytes from the current position in the stream§ memory5Skip @n bytes from the current position in the stream¨ memoryج Skip bytes while the @predicate hold from the current position in the stream© memoryؤ Skip all the remaining bytes from the current position in the stream ک™ڑ›œ‌‍ں ،¢£¤¥¦§¨©ک™ڑ›œ‍‌ں، ¢¤¥¦§¨©£       	BSD-style#Vincent Hanquez <vincent@snarc.org>stableGoodNone   Pk± memoryس Transform a bytearray at a specific offset into
 a Word64 tagged as BE (Big Endian)no bounds checking. unsafe² memoryض Transform a bytearray at a specific offset into
 a Word64 tagged as LE (Little Endian)no bounds checking. unsafe³ memorySerialize a Word64 to a 	ByteArray in big endian format´ memoryے map blocks of 128 bits of a bytearray, creating a new bytestring
 of equivalent size where each blocks has been mapped through f"no length checking is done. unsafeµ memory‏ map blocks of 64 bits of a bytearray, creating a new bytestring
 of equivalent size where each blocks has been mapped through f"no length checking is done. unsafe ±²³´µ±²³µ´       	BSD-style#Vincent Hanquez <vincent@snarc.org>experimentalunknownNone   X±¶ memory%The different bases that can be used.See "http://tools.ietf.org/html/rfc4648RFC46489 for details.
 In particular, Base64 can be standard or
 ,http://tools.ietf.org/html/rfc4648#section-5URL-safeؤ . URL-safe
 encoding is often used in other specifications without
 .http://tools.ietf.org/html/rfc4648#section-3.2padding characters.$https://www.ietf.org/rfc/rfc2045.txtRFC 2045ً
 defines a separate Base64 encoding, which is not supported. This format
 requires a newline at least every 76 encoded characters, which works around
 limitations of older email programs that could not handle long lines.
 Be aware that other languages, such as Ruby, encode the RFC 2045 version
 by default. To decode their ouput, remove all newlines before decoding.Examples(A quick example to show the differences:%let input = "Is 3 > 2?" :: ByteString =let convertedTo base = convertToBase base input :: ByteString convertedTo Base16"49732033203e20323f"convertedTo Base32"JFZSAMZAHYQDEPY="convertedTo Base64"SXMgMyA+IDI/"convertedTo Base64URLUnpadded"SXMgMyA-IDI_"convertedTo Base64OpenBSD"QVKeKw.8GBG9"· memorysimilar to hexadecimal¹ memorystandard Base64؛ memoryunpadded URL-safe Base64» memory<Base64 as used in OpenBSD password encoding (such as bcrypt)¼ memoryء Encode some bytes to the equivalent representation in a specific  ¶.Examples
Convert a 
ByteString to base-64:;convertToBase Base64 ("foobar" :: ByteString) :: ByteString
"Zm9vYmFy"½ memoryت Try to decode some bytes from the equivalent representation in a specific  ¶.Examples'Successfully convert from base-64 to a 
ByteString:ح convertFromBase Base64 ("Zm9vYmFy" :: ByteString) :: Either String ByteStringRight "foobar":Trying to decode invalid data will return an error string:ب convertFromBase Base64 ("!!!" :: ByteString) :: Either String ByteString$Left "base64: input: invalid length" ¶·¸¹؛»¼½¼½¶·¸¹؛»       	BSD-style#Vincent Hanquez <vincent@snarc.org>stableGoodNone 3ا   YOہ memorySimplest Byte Array ہ        	BSD-style#Vincent Hanquez <vincent@snarc.org>stableGoodNoneا   Y­  -=>?B@ACDtuvwxyz{|}~€پ‚ƒ„…†‡ˆ‰ٹ‹Œچژڈگ‘’“”•–—ہ-?@AB=>ہtCD”•–—uwvx{|}y~€zچژٹ„…†‡“‹Œƒپ‚ڈگ‘’‰ˆ    	   	BSD-Style#Vincent Hanquez <vincent@snarc.org>experimentalunknownNone   _ًء memory>Fill a given sized buffer with the result of the Packer actionآ memory/Pack the given packer into the given bytestringأ memory6Put a storable from the current position in the streamؤ memory8Put a Byte Array from the current position in the stream)If the ByteArray is null, then do nothingإ memory7Skip some bytes from the current position in the streamئ memoryأ Skip the size of a storable from the current position in the streamا memory:Fill up from the current position in the stream to the endIt is equivalent to:#fillUpWith s == fillList (repeat s)ب memoryص Will put the given storable list from the current position in the stream
 to the end.ê This function will fail with not enough storage if the given storable can't
 be written (not enough space)Example:ھ> pack (fillList $ [1..] :: Word8) 9
"\1\2\3\4\5\6\7\8\9"
> pack (fillList $ [1..] :: Word32) 4
"\1\0\0\0"
> pack (fillList $ [1..] :: Word32) 64
.. <..succesful..>
> pack (fillList $ [1..] :: Word32) 1
.. <.. not enough space ..>
> pack (fillList $ [1..] :: Word32) 131
.. <.. not enough space ..>ة memory/put Word8 in the current position in the streamت memoryب put Word16 in the current position in the stream
 /! use Host Endiannessث memoryب put Word32 in the current position in the stream
 /! use Host Endianness EFGHءآأؤإئابةتثEFGHءآةتثأؤباإئ  ت               !  !   "  #  #   $  %  &  '   (   )   *   +   ,   -   .   /   0   1   2   3   4   5   6   7  8  8  9  9   :   ;   <   =   >   ?  @  @  A  A   B   C   D   E   F   G   H   I   J   K   L   M   N   O   P   Q   R  S   T  U   V   W   X  Y  Y  Z  [  \  ]   ^   _   `   a   b   c  
d  
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f  
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 ~  
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 ‡  ˆ   i   j   k   l   n   ‰   o   p   ٹ   ‹   q   r   s   t   u   v   w   Œ   چ   ژ   x   y   z   {   |   }   ڈ   گ   ‘   ’   ~  “   ”   •   –  —  [  ک  ™  ڑ   ›   œ   ‌   ‍   ں       ،   v   ¢   £   ¤   ¥   ¦   §   ¨   ©   ھ   «   ¬   ­   ®   ¯   °   ±   ²  ³  ´  µ  ¶  ·  ¸   ¹   ؛   »   ¼  ½  	 ¾  	 o  	 ؟  	 ہ  	 ¤  	 ء  	 آ  	 أ  	 ؤ  	 إ  	 ئ   ا بة ت بة ث بة ج بح خ بح د بح ذ   ر   ز بسش   ص   ض   ×   ط  ظ  ع   غ   ـ   ف   ق   ك   à   ل   â   م   ن   ه   و   ç   è   é   ê   ë   ى   ي   î   ï   ً   ٌ   ٍ   َ   ô   ُ   ِ ÷ّù ÷ّ ْ بس û بسü بس ‎ بس ‏ بس ے بس € بس پ ‚ƒ„ بة… بة† بة‡ بةˆ ب‰ ٹ ب‹ Œ ب‹چ ب‹ژ ب‹ ڈ ب‹گ ب‹‘ ب‹ ’ ب‹“ ب‹“ ب‹ ” ب• – ب• — بک™ بک™ بک ڑ ب› œ بة ‌ بة ‍ بة ں بة   ب، ¢ ب، £ بس ¤ بس ¥ بس ¦ بس § بس¨ بس © بس ھ بس n بس «   ¬   ­   ®   ¯  °  ±  ²  ³  ´  µ  ¶  ·  ¸  ¹  ؛  »  ¼  ½   ¾   ؟   ہ   ء   آ   أ   ؤ   إ  ئ  ا  ب  ة بح s   ت   ث   ج  Z   حخ$memory-0.16.0-KzFZHYoqvi3APqTSkh3QMdData.Memory.ExtendedWordsData.Memory.EndianData.ByteArray.HashData.Memory.Encoding.Base16Data.Memory.Encoding.Base32Data.Memory.Encoding.Base64Data.Memory.PtrMethodsData.ByteArrayData.ByteArray.PackData.ByteArray.SizedData.ByteArray.ParseData.ByteArray.MappingData.ByteArray.EncodingData.Memory.Internal.CompatData.Memory.Hash.SipHashData.Memory.Internal.CompatPrim!Data.Memory.Internal.CompatPrim64Data.Memory.Internal.DeepSeqData.Memory.Internal.ImportsData.Memory.Hash.FNVData.Memory.MemMap.PosixData.ByteArray.TypesData.ByteArray.MemViewData.ByteArray.Pack.InternalData.ByteArray.ScrubbedBytesData.ByteArray.MethodsData.ByteArray.ViewData.ByteArray.BytesWord128$fShowWord128$fEqWord128ByteSwapBEunBELEunLE
EndiannessLittleEndian	BigEndiangetSystemEndiannesstoBEfromBEtoLEfromLE$fByteSwapWord64$fByteSwapWord32$fByteSwapWord16$fShowBE$fEqBE$fStorableBE$fShowLE$fEqLE$fStorableLE$fShowEndianness$fEqEndiannessSipHashSipKeyshowHexadecimaltoHexadecimalfromHexadecimaltoBase32unBase32Length
fromBase32	FnvHash64	FnvHash32toBase64toBase64URLtoBase64OpenBSDunBase64LengthunBase64LengthUnpaddedfromBase64OpenBSDfromBase64URLUnpadded
fromBase64memCreateTemporarymemXor
memXorWithmemCopymemSet
memReversememEqual
memComparememConstEqual	ByteArrayallocRetByteArrayAccesslengthwithByteArraycopyByteArrayToPtrMemViewPackerResult
PackerMore
PackerFailsipHashsipHashWithfnv1Hash	fnv1aHashfnv1_64Hashfnv1a_64HashSizedByteArrayunSizedByteArray
ByteArrayNsizedByteArrayunsafeSizedByteArrayalloccreateallocAndFreezeunsafeCreateinlineUnsafeCreateemptypackunpackconssnocxorindexsplitAttakedropappendcopycopyRetcopyAndFreeze	replicatezeroconvertfromByteArrayAccessunsafeFromByteArrayAccess$fByteArrayNnbytesBlockN$fByteArrayNnSizedByteArray$fByteArrayAccessSizedByteArray$fEqSizedByteArray$fShowSizedByteArray$fOrdSizedByteArray$fNormalFormSizedByteArrayScrubbedBytesnulluncons	singletonspanreverseconcateqconstEqanyallViewviewtakeViewdropViewParser	ParseFail	ParseMoreParseOK	parseFeedparsehasMoreanyBytebytebytestakeStorable	takeWhiletakeAllskip	skipWhileskipAll$fShowResult$fAlternativeParser$fMonadPlusParser$fMonadFailParser$fMonadParser$fApplicativeParser$fFunctorParsertoW64BEtoW64LE	fromW64BEmapAsWord128mapAsWord64BaseBase16Base32Base64Base64URLUnpaddedBase64OpenBSDconvertToBaseconvertFromBase
$fShowBase$fEqBaseBytesfillputStorableputBytesskipStorable
fillUpWithfillListputWord8	putWord16	putWord32
unsafeDoIObaseGHC.Word
byteSwap64
byteSwap32
byteSwap16	Data.BitsunsafeShiftRpopCountunsafeShiftLhashhashWithGHC.BaseStringbe32Primle32Primbyteswap32PrimbooleanPrimInt64#Word64#	eqWord64#	neWord64#	ltWord64#	leWord64#	gtWord64#	geWord64#eqInt64#neInt64#ltInt64#leInt64#gtInt64#geInt64#
quotInt64#	remInt64#and64#or64#xor64#not64#uncheckedShiftL64#uncheckedShiftRL64#int64ToWord64#word64ToInt64#intToInt64#int64ToInt#wordToWord64#word64ToWord#timesWord64#w64#deepseq-1.4.4.0Control.DeepSeqNFDatarnf<$Applicative<*liftA2*>pure<*>ghc-prim	GHC.TypesWordWord8Word16Word32Word64Data.TraversableforMControl.ApplicativeoptionalWrappedMonad	WrapMonadunwrapMonadWrappedArrow	WrapArrowunwrapArrowZipList
getZipListControl.ArrowfirstsecondData.Functor.ConstConstgetConstData.FoldableforM_bitReverse64bitReverse32bitReverse16bitReverse8Data.Functorvoid<$>whenliftA3liftA<**>Alternativemanysome<|>fnv1fnv1afnv1_64fnv1a_64MemorySyncFlagMemorySyncAsyncMemorySyncSyncMemorySyncInvalidateMemoryAdviceMemoryAdviceNormalMemoryAdviceRandomMemoryAdviceSequentialMemoryAdviceWillNeedMemoryAdviceDontNeedMemoryProtectionMemoryMapFlagMemoryMapSharedMemoryMapPrivate	memoryMapmemoryUnmapmemoryAdvise
memoryLockmemoryUnlockmemoryProtect
memorySyncsysconfPageSizeMemoryProtectionNoneMemoryProtectionReadMemoryProtectionWriteMemoryProtectionExecutememViewPlusactionPackeractionPackerWithRemain
runPacker_