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  ³è(  ³é(  ³ê(  ³ë(  ³ì(  ³í(  ³î(  ³ï(  ³ð(  ³ñ(  ³ò(  ³ó(  ³ô(  ³õ(  ³ö(  ³÷(  ³ø(  ³ù(  ³ú(  ³û(  ³ü(  ³ý(  ³þ(  ³ÿ(  ³€)  ³)  ³‚)  ³ƒ)  ³„)  ³…)  ³†)  ³‡)  ³ˆ)  ³‰)  ³Š)  ³‹)  ³Œ)  ³)  ³Ž)  ³)  ³)  ³‘)  ³’)  ³“)  ³”)  ³•)  ³–)  ³—)  ³˜)  ³™)  ³š)  ³›)  ³œ)  ³)  ³ž)  ³Ÿ)  ³ )  ³¡)  ³¢)  ³£)  ³¤)  ³¥)  ³¦)  ³§)  ³¨)  ³©)  ³ª)  ³«)  ³¬)  ³­)  ³®)  ³¯)  ³°)  ³±)  ³²)  ³³)  ³´)  ³µ)  ³¶)  ³·)  ³¸)  ³¹)  ³º)  ³»)  ³¼)  ³½)  ³¾)  ³¿)  ³À)  ³Á)  ³Â)  ³Ã)  ³Ä)  ³Å)  ³Æ)  ³Ç)  ³È)  ³É)  ³Ê)  ³Ë)  ³Ì)  ³Í)  ³Î)  ³Ï)  ³Ð)  ´Ñ)  µÒ)  ¶Ó)  ¶Ô)  ¶Õ)  ¶Ö)  ¶×)  ¶Ø)  ¶Ù)  ¶Ú)  ¶Û)  ¶Ü)  ¶Ý)  ¶Þ)  ¶ß)  ¶à)  ¶á)  ¶â)  ¶ã)  ¶ä)  ¶å)  ¶æ)  ¶ç)  ¶è)  ¶é)  ¶ê)  ¶ë)  ¶ì)  ¶í)  ¶î)  ¶ï)  ¶ð)  ¶ñ)  ¶ò)  ¶ó)  ¶ô)  ·õ)  ¸ö)  ¸÷)  ¹ø)  ºù)  »ú)  ¼û)  ½ü)  ½ý)  ½þ)  ½ÿ)  ½€*  ½*  ½‚*  ½ƒ*  ½„*  ½…*  ½†*  ½‡*  ½ˆ*  ½‰*  ½Š*  ½‹*  ½Œ*  ½*  ½Ž*  ½*  ½*  ½‘*  ½’*  ½“*  ½”*  ½•*  ½–*  ½—*  ½˜*  ½™*  ½š*  ½›*  ½œ*  ½*  ½ž*  ½Ÿ*  ½ *  ½¡*  ½¢*  ½£*  ½¤*  ½¥*  ½¦*  ½§*  ½¨*  ½©*  ½ª*  ½«*  ½¬*  ½­*  ½®*  ½¯*  ½°*  ½±*  ½²*  ½³*  ½´*  ½µ*  ½¶*  ½·*  ½¸*  ½¹*  ½º*  ½»*  ¾¼*  ¿½*  À¾*  Á¿*  ÁÀ*  ÁÁ*  ÂÂ*  ÃÃ*  ÃÄ*  ÃÅ*  ÄÆ*  ÄÇ*  ÅÈ*  ÆÉ*  ÇÊ*  ÈË*  ÉÌ*  ÉÍ*  ÊÎ*  ÊÏ*  ÊÐ*  ËÑ*  ËÒ*  ËÓ*  ËÔ*  ËÕ*  ËÖ*  Ë×*  ËØ*  ËÙ*  ÌÚ*  ÌÛ*  ÌÜ*  ÌÝ*  ÌÞ*  Ìß*  Ìà*  Ìá*  Ìâ*  Ìã*  Ìä*  Ìå*  Ìæ*  Ìç*  Ìè*  Ìé*  Ìê*  Ìë*  Ìì*  Ìí*  Ìî*  Ìï*  Ìð*  Ìñ*  Ìò*  Ìó*  Ìô*  Ìõ*  Ìö*  Ì÷*  Ìø*  Ìù*  Ìú*  Ìû*  Ìü*  Ìý*  Ìþ*  Ìÿ*  Ì€+  Ì+  Ì‚+  Ìƒ+  Ì„+  Ì…+  Ì†+  Ì‡+  Ìˆ+  Ì‰+  ÌŠ+  Ì‹+  ÌŒ+  Ì+  ÌŽ+  Ì+  Ì+  Ì‘+  Ì’+  Ì“+  Ì”+  Í•+  Î–+  Î—+  Ï˜+  Ð™+  Ñš+  Ò›+  Òœ+  Ò+  Òž+  ÒŸ+  Ò +  Ò¡+  Ò¢+  Ò£+  Ò¤+  Ó¥+  Ô¦+  Õ§+  Ö¨+  ×©+  ×ª+  ×«+  ×¬+  ×­+  ×®+  ×¯+  ×°+  ×±+  Ø²+  Ù³+  Ú´+  Úµ+  Ú¶+  Ú·+  Ú¸+  Ú¹+  Úº+  Ú»+  Ú¼+  Û½+  Û¾+  Û¿+  ÜÀ+  ÜÁ+  ÜÂ+  ÜÃ+  ÜÄ+  ÜÅ+  ÜÆ+  ÜÇ+  ÜÈ+  ÜÉ+  ÜÊ+  ÜË+  ÜÌ+  ÜÍ+  ÜÎ+  ÝÏ+  ÝÐ+  ÝÑ+  ÝÒ+  ÞÓ+  ÞÔ+  ÞÕ+  ÞÖ+  ß×+  àØ+  áÙ+  áÚ+  âÛ+  âÜ+  ãÝ+  äÞ+  åß+  åà+  åá+  åâ+  åã+  åä+  åê         Safe-Inferred   vè€ futharkë AST metrics are simply a collection from identifiable node names
 to the number of times that node appears. €€           None  yð„ futhark&Whether an option accepts an argument.† futharkThe  å+ becomes part of the help text.ˆ futharkò Specification if a single command line option.  The option must
 have a long name, and may also have a short name.Á In the action, the option argument (if any) is stored as in the
 char*-typed variable optarg. futharkŸGenerate an option parser as a function of the given name, that
 accepts the given command line options.  The result is a function
 that should be called with argc and argv'.  The function returns
 the number of argv# elements that have been processed.Ý If option parsing fails for any reason, the entire process will
 terminate with error code 1. „…†‡ˆ‰Š‹ŒŽˆ‰Š‹ŒŽ„…†‡    	       None  z?  ‘’“”•‘’“”•           Safe-Inferred!  …v– futharkã A mapping from package paths to their chosen revisions.  This is
 the result of the version solver.™ futharkA structure corresponding to a futhark.pkgþ  file, including
 comments.  It is an invariant that duplicate required packages do
 not occcur (the parser will verify this).› futharkThe name of the package.ž futharkAn entry in the required section of a futhark.pkg file.  futharkName of the required package.¡ futharkThe minimum revision.¢ futharkô An optional hash indicating what
 this revision looked like the last
 time we saw it.  Used for integrity
 checking.£ futharkŠWraps a value with an annotation of preceding line comments.
 This is important to our goal of being able to programmatically
 modify the futhark.pkg$ file while keeping comments intact.§ futharkA line comment.¨ futhark‚The dependencies of a (revision of a) package is a mapping from
 package paths to minimum versions (and an optional hash pinning).ª futharkÂ A package path is a unique identifier for a package, for example
 
github.comuserfoo.« futharkˆTurn a package path (which always uses forward slashes) into a
 file path in the local file system (which might use different
 slashes).¬ futharkû Versions of the form (0,0,0)-timestamp+hash are treated
 specially, as a reference to the commit identified uniquely with
 hashÆ  (typically the Git commit ID).  This function detects such
 versions.­ futharkcommitVersion timestamp commit constructs a commit version.® futharkÓUnfortunately, Data.Versions has a buggy semver parser that
 collapses consecutive zeroes in the metadata field.  So, we define
 our own parser here.  It's a little simpler too, since we don't
 need full semver.¯ futhark9The name of the file containing the futhark-pkg manifest.° futharkÊ Possibly given a package path, construct an otherwise-empty manifest file.± futharkÁ Prettyprint a package manifest such that it can be written to a
 futhark.pkg file.² futhark3The required packages listed in a package manifest.³ futhark× Where in the corresponding repository archive we can expect to
 find the package files.´ futharkï Add new required package to the package manifest.  If the package
 was already present, return the old version.µ futhark6Remove a required package from the manifest.  Returns  æ+Ø 
 if the package was not found in the manifest, and otherwise the new
 manifest and the  ž that was present.¶ futharkParse a text as a  ™.  The  ç+  is used for any error messages.· futhark%Read contents of file and pass it to  ¶.¸ futharkÇ Prettyprint a build list; one package per line and
 newline-terminated. /lu|{vwxzy}~–—˜™š›œžŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸/ª«¨©u|{vwxzy}~­¬®™š›œ°²³´µ±§£¤¥¦žŸ ¡¢¯¶·l–—˜¸    
       Trustworthy   ”À&Ç futharkEncoded form.È futharkAs the user typed it.É futharkLike nub$, but without the quadratic runtime.Ê futharkLike  æ ç, but monadic.Ë futhark	chunk n a splits a into n!-size-chunks.  If the length of
 a is not divisible by n', the last chunk will have fewer than
 n' elements (but it will never be empty).Ì futharkchunks ns a splits a, into chunks determined by the elements
 of ns.  It must hold that sum ns == length aÌ , or the resulting
 list may contain too few chunks, or not all elements of a.Í futharkLike  è+%, but returns zero for an empty list.Î futhark
dropAt i n drops n elements starting at element i.Ï futharktakeLast n l takes the last n elements of l.Ð futharkdropLast n l drops the last n elements of l.Ñ futharkA combination of  é+ and  ê+.Ò futharkÂ Return the list element at the given index, if the index is valid.Ó futhark3Return the first element of the list, if it exists.Ô futharkLike  ë+, but from the end.Õ futharkLike  ë+, but produces three lists.Ö futharkí Return the list element at the given index, if the index is
 valid, along with the elements before and after.× futharkÞ Convert the given integer (implied to be a hash digest) to a
 hexadecimal non-negative number.Ø futhark7The Unix environment when the Futhark compiler started.Ù futharkŽTrue if the environment variable, viewed as an integer, has at
 least this numeric value.  Returns False if variable is unset or
 not numeric.Ú futharkÊ Are we running in a terminal capable of fancy commands and
 visualisation?Û futharkLike  ì+«, but also wraps exceptions when
 the indicated binary cannot be launched, or some other exception is
 thrown.  Also does shenanigans to handle improperly encoded outputs.Ü futhark7Every non-directory file contained in a directory tree.Ý futhark9Round a single-precision floating point number correctly.Þ futharkÁ Round a single-precision floating point number upwards correctly.ß futharkÃ Round a single-precision floating point number downwards correctly.à futhark9Round a double-precision floating point number correctly.á futharkÁ Round a double-precision floating point number upwards correctly.â futharkÃ Round a double-precision floating point number downwards correctly.ã futharkThe system-level lgamma()
 function.ä futharkThe system-level 	lgammaf()
 function.å futharkThe system-level tgamma()
 function.æ futharkThe system-level 	tgammaf()
 function.ç futhark<Turn a POSIX filepath into a filepath for the native system.è futharkªSome bad operating systems do not use forward slash as
 directory separator - this is where we convert Futhark includes
 (which always use forward slash) to native paths.é futharkØ Remove leading and trailing whitespace from a string.  Not an
 efficient implementation!ê futharkRun various  í+› actions concurrently, possibly with a bound on
 the number of threads.  The list must be finite.  The ordering of
 the result list is not deterministic - add your own sorting if
 needed.  If any of the actions throw an exception, then that
 exception is propagated to this function.ë futharkRead a file, returning  æ+" if the file does not exist, and
  î+ if some other error occurs.ì futhark“Z-encode a string using a slightly simplified variant of GHC
 Z-encoding.  The encoded string is a valid identifier in most
 programming languages. 'ÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìí'ÉÊÍËÌÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæèçéêëÈÇìí           Safe-Inferred!  —3î futharkThe name of an entry point.ï futharkThe name of a server-side type.ð futhark#The name of a server-side variable.ñ futhark0The command failed, and this is why.  The first  ï+æ  is any
 output before the failure indincator, and the second Text is the
 output after the indicator.õ futharkA handle to a running server.ö futhark=Start a server, execute an action, then shut down the server. îïðñòóôõö÷øùúûüýþõöñòóôðïî÷øùúûüýþ           Safe-Inferred   œ‰‚ futharkä Calculate the given permutation of the list.  It is an error if
 the permutation goes out of bounds.ƒ futhark Produce the inverse permutation.„ futharkÛ Return the first dimension not affected by the permutation.  For
 example, the permutation [1,0,2] would return 2.… futharkÑ Compose two permutations, with the second given permutation being
 applied first.† futharkÑCheck whether the first list is a permutation of the second, and
 if so, return the permutation.  This will also find identity
 permutations (i.e. the lists are the same) The implementation is
 naive and slow.‡ futharkIf l is an index into the array a, then transposeIndex k n
 l. is an index to the same element in the array transposeArray k n
 a.ˆ futharkIf perm, is conceptually a map of a transposition,
 isMapTranspose permŠ returns the number of dimensions being mapped
 and the number dimension being transposed.  For example, we can
 consider the permutation [0,1,4,5,2,3]5 as a map of a transpose,
 by considering dimensions [0,1], [4,5], and [2,3] as single
 dimensions each.Ç If the input is not a valid permutation, then the result is
 undefined. ‚ƒ„…†‡ˆ‚ƒ„…†‡ˆ           Safe-Inferred   ‡‰ futharkÀ Surround the given string with the given start/end colour codes.Š futharkMake the string red.‹ futharkMake the string green.Œ futharkMake the string bold. ‰Š‹Œ‰Š‹Œ           Safe-Inferred   žé futharkó This wrapper allows you to use a type that is an instance of the
 true class whenever the simile class is required. futharkA twist on the  ð+? type class that is more friendly to
 symbolic representations.– futharkLike  “(, but rounds towards
 positive infinity. 
Ž‘’“”–•
‘’“”–•Ž    è       Trustworthy   Ÿ6  #ñ+ò+ó+ô+õ+ö+÷+nø+ù+ú+û+ü+ý+þ+ÿ+€,,poq‚,ƒ,r„,…,†,‡,tsˆ,‰,Š,‹,            Safe-Inferred!À Á Â   ¡3œ futhark*Typeclass for monads that support logging. futharkAdd one log entry.ž futharkAppend an entire log.Ÿ futharkÀ Typeclass for things that can be turned into a single-entry log.¡ futhark1An efficiently catenable sequence of log entries.¢ futharkô Transform a log into text.  Every log entry becomes its own line
 (or possibly more, in case of multi-line entries). œžŸ ¡¢¡¢Ÿ œž           None!  ©·ª futharkÞ Monads that support a stateful package registry.  These are also
 required to be instances of  Œ,Æ  because most package registry
 operations involve network operations.® futharkÅA package registry is a mapping from package paths to information
 about the package.  It is unlikely that any given registry is
 global; rather small registries are constructed on-demand based on
 the package paths referenced by the user, and may also be combined
 monoidically.  In essence, the PkgRegistry is just a cache.¯ futharkÌ Information about a package.  The name of the package is stored
 separately.² futharkÉ Look up information about a specific
 commit, or HEAD in case of Nothing.³ futharkÛ Information about a version of a single package.  The version
 number is stored separately.¶ futhark1The directory inside the zipball
 containing the libÜ  directory, in
 which the package files themselves
 are stored (Based on the package
 path).· futharkþ The commit ID can be used for
 verification ("freezing"), by
 storing what it was at the time this
 version was last selected.¹ futhark8Timestamp for when the revision
 was made (rarely used).º futharkØThe manifest is stored as a monadic action, because we want to
 fetch them on-demand.  It would be a waste to fetch it information
 for every version of every package if we only actually need a small
 subset of them.¼ futharkÆ Download the zip archive corresponding to a specific package
 version.½ futhark6Lookup information about a given version of a package.¾ futhark£Retrieve information about a package based on its package path.
 This uses Semantic Import Versioning when interacting with
 repositories.  For example, a package 
github.comuserrepo6 will
 match version 0.* or 1.* tags only, a package
 
github.comuserrepo/v2$ will match 2.* tags, and so forth..¿ futhark=Given a package path, look up information about that package.À futhark:Look up information about a specific version of a package.Á futhark%Find the newest version of a package. ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁ¯°±²½¾³´µ¶·¸¹º»¼®ª«¬­¿ÀÁ           None!Á   ¬È futharkÚ A mapping of package revisions to the dependencies of that
 package.  Can be considered a  ®ô  without the option of
 obtaining more information from the Internet.  Probably useful only
 for testing the solver.É futharkø Run the solver, producing both a package registry containing
 a cache of the lookups performed, as well as a build list.Ê futharkÙ Perform package resolution with only pre-known information.  This
 is useful for testing. ÈÉÊÉÊÈ           Trustworthy   °×Í futhark.Prettyprint a value, wrapped to 80 characters.Î futharkPrettyprint a value to a  ï+, wrapped to 80 characters.Ï futharkPrettyprint a value to a  ï+ without any width restriction.Ð futhark2Prettyprint a value without any width restriction.Ñ futharkRe-export of  ,.Ò futhark,Prettyprint a list enclosed in curly braces.Ó futharkThe document  Ó ds separates ds1 with commas and encloses them with
 parentheses.Ô futharkÃ Make sure that the given document is printed on just a single line.Õ futharkLike  bÏ , but splits the string into words and permits line breaks between all of them.Ö futharkStack and prepend a list of  cs to another  c?, separated by
 a linebreak.  If the list is empty, the second  c1 will be
 returned without a preceding linebreak.× futharkË Surround the given document with enclosers and add linebreaks and
 indents.Ø futharkPrettyprint on a single line up to at most some appropriate
 number of characters, with trailing ... if necessary.  Used for
 error messages.Ù futharkLike  )", but a newline after every comma. õ Ž,,,‘,’,	
 !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abckdefghjiÍÎÏÐÑÒÓÔÕÖ×ØÙð 	
 !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abckdefghjiÍÑÒÎÏÐÓÔÖ×ÕØÙ           Safe-Inferred!Ö Û â   ÙÈ…Ú futhark+Conversion operators try to generalise the from t0 x to t1
 instructions from LLVM.Û futharkì Zero-extend the former integer type to the latter.
 If the new type is smaller, the result is a
 truncation.Ü futharkì Sign-extend the former integer type to the latter.
 If the new type is smaller, the result is a
 truncation.Ý futharkù Convert value of the former floating-point type to
 the latter.  If the new type is smaller, the result
 is a truncation.Þ futharkØ Convert a floating-point value to the nearest
 unsigned integer (rounding towards zero).ß futharkÖ Convert a floating-point value to the nearest
 signed integer (rounding towards zero).à futhark6Convert an unsigned integer to a floating-point value.á futhark3Convert a signed integer to a floating-point value.â futharkÓ Convert an integer to a boolean value.  Zero
 becomes false; anything else is true.ã futharkÉ Convert a boolean to an integer.  True is converted
 to 1 and False to 0.ä futharkComparison operators are like  îë s, but they always return a
 boolean value.  The somewhat ugly constructor names are straight
 out of LLVM.å futharkAll types equality.æ futharkUnsigned less than.ç futharkUnsigned less than or equal.è futharkSigned less than.é futharkSigned less than or equal.ê futharkFloating-point less than.ë futhark"Floating-point less than or equal.ì futharkBoolean less than.í futharkBoolean less than or equal.î futharkBinary operators.  These correspond closely to the binary operators in
 LLVM.  Most are parametrised by their expected input and output
 types.ï futharkInteger addition.ð futharkFloating-point addition.ñ futharkInteger subtraction.ò futharkFloating-point subtraction.ó futharkInteger multiplication.ô futharkFloating-point multiplication.õ futharkå Unsigned integer division.  Rounds towards
 negativity infinity.  Note: this is different
 from LLVM.ö futhark>Unsigned integer division.  Rounds towards positive
 infinity.÷ futharkã Signed integer division.  Rounds towards
 negativity infinity.  Note: this is different
 from LLVM.ø futhark<Signed integer division.  Rounds towards positive
 infinity.ù futharkFloating-point division.ú futharkFloating-point modulus.û futhark,Unsigned integer modulus; the countepart to  õ.ü futhark*Signed integer modulus; the countepart to  ÷.ý futharkÉ Signed integer division.  Rounds towards zero.  This
 corresponds to the sdiv0 instruction in LLVM and
 integer division in C.þ futharkÉ Signed integer division.  Rounds towards zero.  This
 corresponds to the srem. instruction in LLVM and
 integer modulo in C.ÿ futhark,Returns the smallest of two signed integers.€ futhark.Returns the smallest of two unsigned integers. futhark3Returns the smallest of two floating-point numbers.‚ futhark,Returns the greatest of two signed integers.ƒ futhark.Returns the greatest of two unsigned integers.„ futhark3Returns the greatest of two floating-point numbers.… futharkLeft-shift.† futhark#Logical right-shift, zero-extended.‡ futhark&Arithmetic right-shift, sign-extended.ˆ futharkBitwise and.‰ futharkBitwise or.Š futharkBitwise exclusive-or.‹ futharkInteger exponentiation.Œ futharkFloating-point exponentiation. futhark#Boolean and - not short-circuiting.Ž futhark"Boolean or - not short-circuiting. futhark“Whether something is safe or unsafe (mostly function calls, and
 in the context of whether operations are dynamically checked).
 When we inline an  : function, we remove all safety checks in
 its body.  The  “, instance picks   as being less than
  ‘.ÝFor operations like integer division, a safe division will not
 explode the computer in case of division by zero, but instead
 return some unspecified value.  This always involves a run-time
 check, so generally the unsafe variant is what the compiler will
 insert, but guarded by an explicit assertion elsewhere.  Safe
 operations are useful when the optimiser wants to move e.g. a
 division to a location where the divisor may be zero, but where the
 result will only be used when it is non-zero (so it doesn't matter
 what result is provided with a zero divisor, as long as the program
 keeps running).’ futhark•What to do in case of arithmetic overflow.  Futhark's semantics
 are that overflow does wraparound, but for generated code (like
 address arithmetic), it can be beneficial for overflow to be
 undefined behaviour, as it allows better optimisation of things
 such as GPU kernels.;Note that all values of this type are considered equal for  ”, and
  “,.• futhark–Various unary operators.  It is a bit ad-hoc what is a unary
 operator and what is a built-in function.  Perhaps these should all
 go away eventually.– futharkE.g., ! True == False.— futharkE.g., 	~(~1) = 1.˜ futharkabs(-2) = 2.™ futharkfabs(-2.0) = 2.0.š futharkSigned sign function: ssignum(-2) = -1.› futharkUnsigned sign function: 
usignum(2) = 1.œ futharkFloating-point sign function. futharkNon-array values.¡ futharkThe only value of type  ®.¢ futharkA floating-point value.¥ futharkAn integer value.ª futharkLow-level primitive types.® futhark/An informationless type - still takes up space!¯ futharkA floating point type.² futharkAn integer type, ordered by size.  Note that signedness is not a
 property of the type, but a property of the operations performed on
 values of these types.· futharkA list of all integer types.¸ futhark#A list of all floating-point types.¹ futharkA list of all primitive types.º futhark
Create an  ¥ from a type and an  •,.» futharkThe type of an integer value.¼ futharkConvert an  ¥ to any  ð+ type.½ futhark	Create a  ¢ from a type and a  –,.¾ futhark#The type of a floating-point value.¿ futharkThe type of a basic value.À futhark·A "blank" value of the given primitive type - this is zero, or
 whatever is close to it.  Don't depend on this value, but use it
 for e.g. creating arrays to be populated by do-loops.Á futhark,A list of all unary operators for all types.Â futhark-A list of all binary operators for all types.Ã futhark1A list of all comparison operators for all types.Ä futhark1A list of all conversion operators for all types.Å futhark	Apply an  • to an operand.  Returns  æ+! if the
 application is mistyped.Æ futharkE.g., 	~(~1) = 1.Ç futharkabs(-2) = 2.È futharkabs(-2.0) = 2.0.É futharkssignum(-2) = -1.Ê futharkusignum(-2) = -1.Ë futharkApply a  î to an operand.  Returns  æ+Ñ  if the
 application is mistyped, or outside the domain (e.g. division by
 zero).Ì futharkInteger addition.Í futharkInteger multiplication.Î futharká Signed integer division.  Rounds towards negativity infinity.
 Note: this is different from LLVM.Ï futhark*Signed integer modulus; the countepart to  ÷.Ð futharkSigned integer exponentatation.Ñ futharkApply a  Ú to an operand.  Returns  æ+! if the
 application is mistyped.Ò futhark†Turn the conversion the other way around.  Note that most
 conversions are lossy, so there is no guarantee the value will
 round-trip.Ó futharkŽZero-extend the given integer value to the size of the given
 type.  If the type is smaller than the given value, the result is a
 truncation.Ô futharkŽSign-extend the given integer value to the size of the given
 type.  If the type is smaller than the given value, the result is a
 truncation.Õ futhark5Convert the former floating-point type to the latter.Ö futharkØ Convert a floating-point value to the nearest
 unsigned integer (rounding towards zero).× futharkÖ Convert a floating-point value to the nearest
 signed integer (rounding towards zero).Ø futhark6Convert an unsigned integer to a floating-point value.Ù futhark3Convert a signed integer to a floating-point value.Ú futharkApply a  ä to an operand.  Returns  æ+! if the
 application is mistyped.Û futhark3Compare any two primtive values for exact equality.Ü futharkUnsigned less than.Ý futharkUnsigned less than or equal.Þ futharkSigned less than.ß futharkSigned less than or equal.à futharkFloating-point less than.á futhark"Floating-point less than or equal.â futharkTranslate an  ¥ to  .  This is guaranteed to fit.ã futharkTranslate an  ¥ to  .  This is guaranteed to fit.ä futhark%The result type of a binary operator.å futhark+The operand types of a comparison operator.æ futhark0The operand and result type of a unary operator.ç futhark4The input and output types of a conversion operator.è futharký A mapping from names of primitive functions to their parameter
 types, their result type, and a function for evaluating them.é futhark Is the given value kind of zero?ê futharkIs the given value kind of one?ë futhark$Is the given value kind of negative?ì futhark(Is the given integer value kind of zero?í futhark'Is the given integer value kind of one?î futhark7The size of a value of a given primitive type in bites.ï futharkÁ The size of a value of a given primitive type in eight-bit bytes.ð futhark?The size of a value of a given integer type in eight-bit bytes.ñ futharkÆ The size of a value of a given floating-point type in eight-bit bytes.ò futhark1True if the given binary operator is commutative.ó futharkThe human-readable name for a  Ú.  This is used to expose
 the  Ú in the 
intrinsics module of a Futhark program.ô futhark;True if signed.  Only makes a difference for integer types. Ÿ ÚÛÜÝÞßàáâãäåæçèéêëìíîˆïñó‰Šðòôõö÷øùúûüýþÿ€‚ƒ„…†‡‹ŒŽ‘’“”•–—˜™š›œŸž ¡¢£¤¥¦§¨©ª­«¬®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôŸ²³´µ¶·¯°±¸ª­«¬®¹ ¥¦§¨©º»¼¢£¤½¾Ÿž ¡¿À’“”‘•–—˜™š›œÁîˆïñó‰Šðòôõö÷øùúûüýþÿ€‚ƒ„…†‡‹ŒŽÂÚÛÜÝÞßàáâãÄäåæçèéêëìíÃÅÆÇÈÉÊËÌÍÎÏÐÑÓÔÕÖ×ØÙãâÒÚÛÜÝÞßàáäæåçèéìêíëîïðñòóô           Safe-Inferred!  Ü›­ futhark'Defined in this module for convenience. ©ª«¬­®¯°­°®¯©«¬ª           Safe-InferredÁ   á:± futhark™An error that is not the users fault, but a bug (or limitation)
 in the compiler.  Compiler passes should only ever report this
 error - any problems after the type checker are *our* fault, not
 the users.  These are generally thrown as IO exceptions, and caught
 at the top level.³ futharkA compiler error.´ futharká An error that happened due to something the user did, such as
 provide incorrect code or options.µ futharkê An internal compiler error.  The second text is extra data
 for debugging, which can be written to a file.¶ futharkThere are two classes of internal errors: actual bugs, and
 implementation limitations.  The latter are already known and need
 not be reported.¹ futhark	Raise an  ´" based on a prettyprinting result.º futhark	Raise an  ´ based on a string.» futhark	Raise an  µ" based on a prettyprinting result.¼ futhark	Throw an  ± that is a  ·.½ futhark	Throw an  ± that is a  ¸.¾ futharkLike  ¼, but with a  å+.¿ futharkLike  ½, but with a  å+. ±²³µ´¶·¸¹º»¼½¾¿³µ´¶·¸¹º±²¼¾½¿»           Safe-Inferred   âèÆ futharkä A table entry. Consists of the content as well a list of
 SGR commands to color/stylelize the entry.Ç futhark.Makes a table entry with the default SGR mode.È futhark‹Builds a table from a list of entries and a padding amount that
 determines padding from the right side of the widest entry in each column. ÆÇÈÈÇÆ           Trustworthy!Ð   ìÁÊ futharkâ A name tagged with some integer.  Only the integer is used in
 comparisons, no matter the type of vn.Ì futharkÍ The abstract (not really) type representing names in the Futhark
 compiler.   å+4s, being lists of characters, are very slow,
 while  ï+s are based on byte-arrays.Í futhark2Whether some operator is commutative or not.  The  —,:
 instance returns the least commutative of its arguments.Ð futhark“The uniqueness attribute of a type.  This essentially indicates
 whether or not in-place modifications are acceptable.  With respect
 to ordering,  Ò is greater than  Ñ.Ñ futhark-May have references outside current function.Ò futhark'No references outside current function.Ó futhark3The name of the default program entry point (main).Ô futhark7Convert a name to the corresponding list of characters.Õ futhark7Convert a list of characters to the corresponding name.Ö futhark$Convert a name to the corresponding  ï+.× futhark
Convert a  ï+ to the corresponding name.Ø futhark/A human-readable location string, of the form
 filename:lineno:columnno?.  This follows the GNU coding standards
 for error messages:
 8https://www.gnu.org/prep/standards/html_node/Errors.html ƒThis function assumes that both start and end position is in the
 same file (it is not clear what the alternative would even mean).Ù futharkLike  Ø, but locStrRel prev now prints the location now-
 with the file name left out if the same as prev¿.  This is useful
 when printing messages that are all in the context of some
 initially printed location (e.g. the first mention contains the
 file name; the rest just line and column name).Ú futharkœGiven a list of strings representing entries in the stack trace
 and the index of the frame to highlight, produce a final
 newline-terminated string for showing to the user.  This string
 should also be preceded by a newline.  The most recent stack frame
 must come first in the list.Û futhark Return the tag contained in the  Ê.Ü futhark!Return the name contained in the  Ê.Ý futharkReturn the base  Ì converted to a string.Þ futhark‹Enclose a string in the prefered quotes used in error messages.
 These are picked to not collide with characters permitted in
 identifiers.ß futharkAs  Þ,, but works on prettyprinted representation. % nqrtsÍÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞß%ÐÒÑÍÎÏrqtsnØÙÚÌÔÕÖ×ÊËÛÜÝÍÞßÓ            Safe-Inferred!À Á Â ï ð   ÿº1ô futharkA part of an error message.õ futharkA literal string.ö futharkA run-time integer value.÷ futhark A bigger run-time integer value.ø futharkÝ An error message is a list of error parts, which are concatenated
 to form the final message.ú futhark®An element of a pattern - consisting of a name and an addditional
 parametric decoration.  This decoration is what is expected to
 contain the type of the resulting variable.ü futharkThe name being bound.ý futharkPattern element decoration.þ futhark
A list of  €Ì s, indicating how an array should be sliced.
 Whenever a function accepts a  þû , that slice should be total,
 i.e, cover all dimensions of the array.  Deviators should be
 indicated by taking a list of  ÿes instead.ÿ futhark,How to index a single dimension of an array.€ futharkFix index in this dimension. futhark&DimSlice start_offset num_elems stride.‚ futharkA function or lambda parameter.„ futharkName of the parameter.… futharkFunction parameter decoration.† futhark¦A subexpression is either a scalar constant or a variable.  One
 important property is that evaluation of a subexpression is
 guaranteed to complete in constant time.‰ futhark:A list of names used for certificates in some expressions.Œ futharkÖ An identifier consists of its name and the type of the value
 bound to the identifier. futhark‰Information about which parts of a value/type are consumed.  For
 example, we might say that a function taking three arguments of
 types ([int], *[int], [int])
 has diet [Observe, Consume,
 Observe].‘ futharkConsumes this value.’ futharkÒ Only observes value in this position, does
 not consume.  A result may alias this.“ futharkAs  ’Ð , but the result will not
 alias, because the parameter does not carry
 aliases.” futharkAn  –> with uniqueness information, used for function
 return types.• futharkÛ A type with shape and uniqueness information, used declaring
 return- and parameters types.– futhark›A type with existentially quantified shapes - used as part of
 function (and function-like) return types.  Generally only makes
 sense when used in a list.— futharkÊ A type with shape information, used for describing the type of
 variables.˜ futhark>The type of a value.  When comparing types for equality with
  ˜,, shapes must match.š futhark1Token, index space, element type, and uniqueness. futharkA fancier name for ()% - encodes no uniqueness information.Ÿ futhark:A string representing a specific non-default memory space.  futhark!The memory space of a block.  If  ¡Ì , this is the "default"
 space, whatever that is.  The exact meaning of the  ŸÙ
 depends on the backend used.  In GPU kernels, for example, this is
 used to distinguish between constant, global and shared memory
 spaces.  In GPU-enabled host code, it is used to distinguish
 between host memory ( ¡) and GPU space.£ futharkõ A special kind of memory that is a statically sized
 array of some primitive type.  Used for private memory
 on GPUs.¤ futhark>A class encompassing types containing array shape information.¥ futhark0Return the rank of an array with the given size.¦ futharkstripDims n shape strips the outer n dimensions from
 shape.§ futhark5Check whether one shape if a subset of another shape.¨ futharkÛ The size of an array type as merely the number of dimensions,
 with no further information.ª futharkLike  ¯ñ  but some of its elements may be bound in a local
 environment instead.  These are denoted with integral indices.« futharkThe size of this dimension.¬ futhark"Something that may be existential.¯ futharkû The size of an array as a list of subexpressions.  If a variable,
 that variable must be in scope where this array is used.° futharkå The size of an array type as a list of its dimension sizes, with
 the type of sizes being parametric.³ futharkIf the argument is a  €, return its component.´ futharkIf the slice is all  €s, return the components.µ futhark3The dimensions of the array produced by this slice.¶ futharkA slice with a stride of one.· futharkFix the  ?s of a slice.  The number of indexes must equal
 the length of  µ for the slice.¸ futharkFurther slice the  >s of a slice.  The number of slices
 must equal the length of  µ for the slice.¹ futharkÑ How many non-constant parts does the error message have, and what
 is their type? † nqrtsÍÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—Ÿž ¡¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßôõö÷øùúûüýþÿ€‚ƒ„…†ˆ‡‰Š‹ŒŽ‘’“”•–—˜›™œšžŸ ¢¡£¤¥¦§¨©ª«¬®­¯°±²³´µ¶·¸¹Î ÐÒÑž°±²¯¬®­«ª¨©¤¥¦§ ¢¡£Ÿ˜›™œš—–•”‘’“øùôõö÷¹Ÿž ¡ŒŽ‰Š‹†ˆ‡‚ƒ„…ÿ€þ³´µ¶·¸úûüý           Safe-Inferred  lŒ futhark$If a Haskell type is an instance of  ŒÄ , it means that a
 value of that type can be converted to a Futhark  ÿ .
 This is intended to cut down on boilerplate when writing compiler
 code - for example, you'll quickly grow tired of writing Constant
 (LogVal True) loc.Ž futhark	Create a  ‡  † containing the given value. futhark1Utility definition for reasons of type ambiguity. futhark1Utility definition for reasons of type ambiguity. ŒŽŒŽ           Safe-InferredÀ Á Â  a9Ÿ futharkÅ Something with an existential context that can be (partially)
 fixed.  futharkÂ Fix the given existentional variable to the indicated free
 value.¡ futhark/Typeclass for things whose type can be changed.£ futhark"Typeclass for things that contain  ”s.¥ futhark"Typeclass for things that contain  –s.§ futhark"Typeclass for things that contain  •s.© futhark"Typeclass for things that contain  —s.« futhark%Remove shape information from a type.¬ futharkœReturn the dimensionality of a type.  For non-arrays, this is
 zero.  For a one-dimensional array it is one, for a two-dimensional
 it is two, and so forth.­ futhark:Return the shape of a type - for non-arrays, this is the
  ™,.® futharkÚ Set the shape of an array.  If the given type is not an
 array, return the type unchanged.¯ futharkÃ True if the given type has a dimension that is existentially sized.° futhark Return the uniqueness of a type.± futharkunique t is  š,' if the type of the argument is unique.² futhark‘Convert types with non-existential shapes to types with
 non-existential shapes.  Only the representation is changed, so all
 the shapes will be  ®.³ futharkAs  ², but on a single type.´ futharkarrayOf t s uÃ  constructs an array type.  The convenience
 compared to using the  › constructor directly is that t can
 itself be an array.  If t is an n-dimensional array, and s is
 a list of length n, the resulting type is of an n+m6 dimensions.
 The uniqueness of the new array will be u, no matter the
 uniqueness of t.  If the shape s has rank 0, then the tÐ  will
 be returned, although if it is an array, with the uniqueness
 changed to u.µ futhark‰Construct an array whose rows are the given type, and the outer
 size is the given dimension.  This is just a convenient wrapper
 around  ´.¶ futharkÓ Construct an array whose rows are the given type, and the outer
 size is the given  ¯-.  This is just a convenient wrapper
 around  ´.· futharkß Set the dimensions of an array.  If the given type is not an
 array, return the type unchanged.¸ futhark÷ Replace the size of the outermost dimension of an array.  If the
 given type is not an array, it is returned unchanged.¹ futharkó Replace the size of the given dimension of an array.  If the
 given type is not an array, it is returned unchanged.º futhark2Replace the outermost dimension of an array shape.» futhark2Replace the specified dimension of an array shape.¼ futharkpeelArray n t4 returns the type resulting from peeling the first
 n array dimensions from t.  Returns Nothing if t has less
 than n dimensions.½ futharkstripArray n t removes the nÚ  outermost layers of the array.
 Essentially, it is the type of indexing an array of type t with
 n	 indexes.¾ futharké Return the size of the given dimension.  If the dimension does
 not exist, the zero constant is returned.¿ futharkÊ Return the dimensions of a type - for non-arrays, this is the
 empty list.À futharkÖ Return the existential dimensions of a type - for non-arrays,
 this is the empty list.Á futharké Return the size of the given dimension.  If the dimension does
 not exist, the zero constant is returned.Â futhark­Return the size of the given dimension in the first element of
 the given type list.  If the dimension does not exist, or no types
 are given, the zero constant is returned.Ã futhark0Return the immediate row-type of an array.  For [[int]], this
 would be [int].Ä futharkÁ A type is a primitive type if it is not an array or memory block.Å futhark.Returns the bottommost type of an array.  For [][]i32, this
 would be i325.  If the given type is not an array, it is returned.Æ futhark*Swap the two outer dimensions of the type.Ç futharkžRearrange the dimensions of the type.  If the length of the
 permutation does not match the rank of the type, the permutation
 will be extended with identity.È futharkTransform any  †s in the type.É futharkTransform any  †s in the type.Ê futharkdiet t< returns a description of how a function parameter of
 type t might consume its argument.Ë futharkx `subtypeOf` y is true if x is a subtype of y (or equal to
 y), meaning x is valid whenever y is.Ì futharkxs `subtypesOf` ys is true if xs is the same size as ys,
 and each element in xs/ is a subtype of the corresponding element
 in ys..Í futhark2Add the given uniqueness information to the types.Î futhark,Remove uniqueness information from the type.Ï futhark5If an existential, then return its existential index.Ð futhark'If a known size, then return that size.Ñ futharkÏGiven the existential return type of a function, and the shapes
 of the values returned by the function, return the existential
 shape context.  That is, those sizes that are existential in the
 return type.Ò futharkÀ The set of identifiers used for the shape context in the given
  –s.Ó futharkIf all dimensions of the given  ª4 are statically known,
 change to the corresponding  ¯.Ô futharkGiven two lists of  –(s of the same length, return a list
 of  –(s that is a subtype of the two operands.Õ futharkGiven a list of  –Á s and a list of "forbidden" names,
 modify the dimensions of the  –s such that they are  ¬
 where they were previously  ®0 with a variable in the set of
 forbidden names.Ö futhark-Produce a mapping for the dimensions context.× futharkIntType Int8Ø futharkIntType Int16Ù futharkIntType Int32Ú futharkIntType Int64Û futharkFloatType Float32Ü futharkFloatType Float64 >Ÿ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜ>«¬­®¯°±²³Ä´µ¶¸¹º»·¼½¿À¾ÁÂÅÃÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜ©ª§¨¥¦£¤¡¢Ÿ            Safe-InferredÀ Â Ë Ù   Öï futharkA type representing the return type of a function.  In practice,
 a list of these will be used.  It should contain at least the
 information contained in an  –5, but may have more, notably
 an existential context.ð futhark-Contruct a return type from a primitive type.ñ futhark«Given a function return type, the parameters of the function,
 and the arguments for a concrete call, return the instantiated
 return type for the concrete call, if valid.ò futharkó A type representing the return type of a body.  It should contain
 at least the information contained in a list of  –6s, but may
 have more, notably an existential context.ó futhark,Construct a body type from a primitive type.ô futharkà Given shape parameter names and value parameter types, produce the
 types of arguments accepted. ïðñòóôòóïðñô           Safe-InferredÁ Ë Ù  #[	÷ futhark‡A collection of type families, along with constraints specifying
 that the types they map to should satisfy some minimal
 requirements.ø futhark)Decoration for every let-pattern element.ù futhark Decoration for every expression.ú futharkDecoration for every body.û futhark5Decoration for every (non-lambda) function parameter.ü futhark/Decoration for every lambda function parameter.ý futhark-The return type decoration of function calls.þ futhark'The return type decoration of branches.ÿ futharkExtensible operation. ïðñòóô÷ÿýøùúûüþ	÷ÿýøùúûüþ           Trustworthy4À Á Â Ë Ð Ù ï ð  >5É € futharkAn entire Futhark program.‚ futharkç Top-level constants that are computed at program startup, and
 which are in scope inside all functions.ƒ futharkÅThe functions comprising the program.  All funtions are also
 available in scope in the definitions of the constants, so be
 careful not to introduce circular dependencies (not currently
 checked).„ futharkú Every entry point argument and return value has an annotation
 indicating how it maps to the original source program type.… futhark6Is an unsigned integer or array of unsigned
 integers.† futharkù A black box type comprising this many core
 values.  The string is a human-readable
 description with no other semantics.‡ futharkMaps directly.ˆ futhark‰Information about the parameters and return value of an entry
 point.  The first element is for parameters, the second for return
 value.‰ futharkFunction Declarations‹ futhark5Contains a value if this function is
 an entry point.‘ futharkA lambda parameter.’ futharkA function and loop parameter.“ futhark#Type alias for namespacing reasons.” futhark%Anonymous function for use in a SOAC.™ futhark#A type alias for namespace control.š futharkã What kind of branch is this?  This has no semantic meaning, but
 provides hints to simplifications.› futharkAn ordinary branch.œ futhark—A branch where the "true" case is what we are
 actually interested in, and the "false" case is only
 present as a fallback for when the true case cannot
 be safely evaluated.  The compiler is permitted to
 optimise away the branch if the true case contains
 only safe statements. futharkªBoth of these branches are semantically equivalent,
 and it is fine to eliminate one if it turns out to
 have problems (e.g. contain things we cannot generate
 code for).ž futharkData associated with a branch.¢ futharkFor-loop or while-loop?¥ futhark'The root Futhark expression type.  The  «„ constructor contains
 a lore-specific operation.  Do-loops, branches and function calls
 are special.  Everything else is a simple  ¬.¦ futhark#A simple (non-recursive) operation.© futhark'loop {a} = {v} (for i < n|while b) do bÁ .  The merge
 parameters are divided into context and value part.ª futharkãCreate accumulators backed by the given arrays (which are
 consumed) and pass them to the lambda, which must return the
 updated accumulators and possibly some extra values.  The
 accumulators are turned back into arrays.  The  ¯ú  is the
 write index space.  The corresponding arrays must all have this
 shape outermost.  This construct is not part of  ¬
 because we need the lore parameter.¬ futharkå A primitive operation that returns something of known size and
 does not itself contain any bindings.­ futharkA variable or constant.® futharkÂSemantically and operationally just identity, but is
 invisible/impenetrable to optimisations (hopefully).  This is
 just a hack to avoid optimisation (so, to work around compiler
 limitations).¯ futharkArray literals, e.g., [ [1+x, 3], [2, 1+4] ];.
 Second arg is the element type of the rows of the array.° futharkUnary operation.± futharkBinary operation.² futhark+Comparison - result type is always boolean.³ futharkConversion "casting".´ futharkí Turn a boolean into a certificate, halting the program with the
 given error message if the boolean is false.µ futhark5The certificates for bounds-checking are part of the  Í.¶ futharkÑ An in-place update of the given array at the given position.
 Consumes the array.· futharkconcat!0([1],[2, 3, 4]) = [1, 2, 3, 4]@.¸ futhark:Copy the given array.  The result will not alias anything.¹ futharkç Manifest an array with dimensions represented in the given
 order.  The result will not alias anything.º futhark$iota(n, x, s) = [x,x+s,..,x+(n-1)*s].The  ²è  indicates the type of the array returned and the
 offset/stride arguments, but not the length argument.» futhark+replicate([3][2],1) = [[1,1], [1,1], [1,1]]¼ futhark>Create array of given type and shape, with undefined elements.½ futhark71st arg is the new shape, 2nd arg is the input array *)¾ futhark‡Permute the dimensions of the input array.  The list
 of integers is a list of dimensions (0-indexed), which
 must be a permutation of [0,n-1], where n1 is the
 number of dimensions in the input array.¿ futhark´Rotate the dimensions of the input array.  The list of
 subexpressions specify how much each dimension is rotated.  The
 length of this list must be equal to the rank of the array.À futharkð Update an accumulator at the given index with the given value.
 Consumes the accumulator and produces a new one.Á futhark
A list of  Â-s, indicating the new dimensions of an array.Â futharkThe new dimension in a  ½ñ-like operation.  This allows us to
 disambiguate "real" reshapes, that change the actual shape of the
 array, from type coercions that are just present to make the types
 work out.  The two constructors are considered equal for purposes of  ”,.Ã futharkÈ The new dimension is guaranteed to be numerically
 equal to the old one.Ä futharkÇ The new dimension is not necessarily numerically
 equal to the old one.Å futhark!Type alias for namespace reasons.Æ futharkà A body consists of a number of bindings, terminating in a result
 (essentially a tuple literal).Ë futhark5The result of a body is a sequence of subexpressions.Ì futharkA sequence of statements.Í futharkA local variable binding.Ï futharkPattern.Ð futhark Auxiliary information statement.Ñ futharkExpression.Ò futhark3Auxilliary Information associated with a statement.× futhark#A type alias for namespace control.Ø futhark?A pattern is conceptually just a list of names and their types.Ú futhark-existential context (sizes and memory blocks)Û futhark"real" valuesÜ futhark#A type alias for namespace control.Ý futharkð Every statement is associated with a set of attributes, which can
 have various effects throughout the compiler.à futharkA single attribute.ã futhark
Construct  Ý from a single  à.ä futhark8Is the given attribute to be found in the attribute set?å futharkx  å y gives x# except for any attributes also in y.æ futharkA single statement.ç futhark1Convert a statement list to a statement sequence.è futhark1Convert a statement sequence to a statement list.é futhark,The first statement in the sequence, if any. ‡ nqrtsÍÚÛÜÝÞßàáâãäåæçèéêëìíîˆïñó‰Šðòôõö÷øùúûüýþÿ€‚ƒ„…†‡‹ŒŽ‘’“”•–—˜™š›œ¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßô÷õöøùúûüýþÿ€‚ƒ„…†ˆ‡‰Š‹ŒŽ‘’“”•–—˜›™œšžŸ ¢¡£¤¥¦§¨©ª«¬®­¯°±²³´µ¶·¸¹ïðñòóô÷þüûúùøÿýøùúûüýþÿ€‚ƒ„…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥¨«§¦©ª¬®µ°±º¾»½¸­³²¯´¶·¹¼¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéÑÐÒÑž¨©¤¥¦§ ¢¡£˜›™œš‘’“àáâÝÞßãäåŒŽ†ˆ‡ÜúûüýØÙÚÛ×ÒÓÔÕÖÍÎÏÐÑÌËÆÇÈÉÊÅ¬®µ°±º¾»½¸­³²¯´¶·¹¼¿À•–—˜™š›œîˆïñó‰Šðòôõö÷øùúûüýþÿ€‚ƒ„…†‡‹ŒŽäåæçèéêëìíÚÛÜÝÞßàáâãÂÃÄÁ¥¨«§¦©ª™¢£¤žŸ ¡š›œ‘”•–—˜“‚ƒ„…’‘‰Š‹ŒŽˆ„…†‡€‚ƒæçèé           Safe-Inferred  K0¦ futharkThe new dimension.§ futhark6The new dimensions resulting from a reshape operation.¨ futhark1The new shape resulting from a reshape operation.© futharkConstruct a  ½" where all dimension changes are
  Ãs.ª futhark reshapeOuter newshape n oldshape returns a  ½% expression
 that replaces the outer n dimensions of oldshape with newshape.« futhark reshapeInner newshape n oldshape returns a  ½% expression
 that replaces the inner m-n dimensions (where m is the rank of
 oldshape) of src with newshape.¬ futharkã If the shape change is nothing but shape coercions, return the new dimensions.  Otherwise, return
  æ+.­ futharkfuseReshape s1 s2 creates a new  Á2 that is
 semantically the same as first applying s1
 and then s2-.  This
 may take advantage of properties of  Ã versus  Ä
 to preserve information.® futharkÎ Given concrete information about the shape of the source array,
 convert some  Äs into  Ãs.¯ futhark!reshapeIndex to_dims from_dims is transforms the index list
 is" (which is into an array of shape 	from_dims) into an index
 list is'", which is into an array of shape to_dims.  is must
 have the same length as 	from_dims, and is' will have the same
 length as to_dims.° futharkunflattenIndex dims i: computes a list of indices into an array
 with dimension dims given the flat index i2.  The resulting list
 will have the same size as dims.± futharkflattenIndex dims is computes the flat index of is  into an
 array with dimensions dims.  The length of dims and is must
 be the same.² futharkGiven a length n list of dimensions dims, sizeSizes dims
 will compute a length n+1é  list of the size of each possible array
 slice.  The first element of this list will be the product of
 dims!, and the last element will be 1. ¦§¨©ª«¬­®¯°±²¦§¨©ª«¬­®¯±°²           Safe-InferredÁ Ë Ù  Oí³ futharkThe  — of a parameter.´ futharkThe  • of a parameter.µ futharkAn  Œ corresponding to a parameter.¶ futharkAn  Œ$ corresponding to a pattern element.· futharkThe type of a name bound by a  Ü.¸ futharkSet the lore of a  Ü.¹ futharkÁ All pattern elements in the pattern - context first, then values.º futharkReturn a list of the  Œs bound by the  ×.» futharkReturn a list of the context  Œs bound by the  ×.¼ futharkReturn a list of the value  Œs bound by the  ×.½ futharkReturn a list of the  Ìs bound by the  ×.¾ futharkReturn a list of the  Ì#s bound by the context part of the  ×.¿ futharkReturn a list of the  Ì!s bound by the value part of the  ×.À futhark1Return a list of the typess bound by the pattern.Á futharkÃ Return a list of the typess bound by the value part of the pattern.Â futhark0Return the number of names bound by the pattern.Ã futharkCreate a pattern using  — as the attribute. ³´µ¶·¸¹º»¼½¾¿ÀÁÂÃµ³´¶·¸¹º»¼½¿¾ÀÁÂÃ           Safe-Inferred!À Á Â  PÝÄ futhark:The class of lores whose annotations can be prettyprinted.Æ futharkLike  Ò, but produces a  c. ÍÒÄÅÆÒÍÄÅÆ           Trustworthy.4À Á Â Ã Ä Æ Ë Ð Ù  Y;ä futhark4A monad transformer that carries around an extended  ï.
 Its  ë( method will first look in the extended  ï,
 and then use the  ë  method of the underlying monad.å futhark4A constraint that indicates two lores have the same  ð
 representation.æ futharké The class of things that can provide a scope.  There is no
 overarching rule for what this means.  For a  Í+, it is the
 corresponding pattern.  For a  “, is is the parameters.è futhark,The class of monads that not only provide a  ï1, but also
 the ability to locally extend it.  A  ›, containing a
  ï- is the prototypical example of such a monad.é futhark”Run a computation with an extended type environment.  Note that
 this is intended to *add* to the current type environment, it
 does not replace it.ê futhark‰The class of applicative functors (or more common in practice:
 monads) that permit the lookup of variable types.  A default method
 for  ëÌ  exists, which is sufficient (if not always
 maximally efficient, and using  œ, to fail) when  í
 is defined.ë futharkÕ Return the type of the given variable, or fail if it is not in
 the type environment.ì futharkÕ Return the info of the given variable, or fail if it is not in
 the type environment.í futharkÂ Return the type environment contained in the applicative
 functor.î futharkÅ Return the result of applying some function to the type
 environment.ï futharkÉ A scope is a mapping from variable names to information about
 that name.ð futhark!How some name in scope was bound.õ futhark"Extend the monadic scope with the  ç the given value.ö futharkThe scope of a pattern.÷ futharkThe scope of a pattern element.ø futhark$The scope of some lambda parameters.ù futhark.The scope of some function or loop parameters.ú futharkÊ If two scopes are really the same, then you can convert one to
 the other.û futhark3Run a computation in the extended type environment. äåæçèéêëìîíïðñòóôõö÷øùúûêëìîíðñòóôèéïæçõøùö÷åúäû           Safe-Inferred  \ì’	 futhark…Express a monad expression on a syntax node.  Each element of
 this structure expresses the action to be performed on a given
 child.œ	 futharkExpress a monad mapping operation on a syntax node.  Each element
 of this structure expresses the operation to be performed on a
 given child.Ÿ	 futharkÌ Most bodies are enclosed in a scope, which is passed along
 for convenience.¦	 futhark/A mapper that simply returns the tree verbatim.§	 futhark¶Map a monadic action across the immediate children of an
 expression.  Importantly, the mapping does not descend recursively
 into subexpressions.  The mapping is done left-to-right.¨	 futharkLike  §	, but in the  , monad.©	 futharkA no-op traversal.ª	 futharkAs  §	$, but do not construct a result AST. ’	“	”	•	–	—	˜	™	š	›	œ		ž	Ÿ	 	¡	¢	£	¤	¥	¦	§	¨	©	ª	œ		ž	Ÿ	 	¡	¢	£	¤	¥	¦	§	¨	’	“	”	•	–	—	˜	™	š	›	©	ª	            Safe-Inferred	À Á Â Ã Ä Ë Ù  _‚«	 futharkõ Any operation must define an instance of this class, which
 describes the type of the operation (at the value level).­	 futharkThe type of a subexpression.®	 futharkmapType f arrts* wraps each element in the return type of fÒ  in
 an array with size equal to the outermost dimension of the first
 element of arrts.¯	 futhark"The type of a primitive operation.°	 futharkThe type of an expression.±	 futhark/The number of values returned by an expression. %ïðñòóôäåæçèéêíîëìïðôóñòõö÷øùúû«	¬	­	®	¯	°	±	°	±	­	¯	®	«	¬	    !       Safe-InferredÀ Á Â  fV¶	 futharkŒEither return precomputed free names stored in the attribute, or
 the freshly computed names.  Relies on lazy evaluation to avoid the
 work.¸	 futharkÚ A class indicating that we can obtain free variable information
 from values of this type.º	 futhark+A computation to build a free variable set.»	 futharkA set of names.  Note that the  “,0 instance is a dummy that
 treats everything as  ž, if  ˜,, and otherwise  Ÿ,.¼	 futharkÀ Retrieve the data structure underlying the names representation.½	 futhark(Does the set of names contain this name?¾	 futhark(Construct a name set from a list.  Slow.¿	 futhark,Turn a name set into a list of names.  Slow.À	 futhark(Construct a name set from a single name.Á	 futhark"The intersection of two name sets.Â	 futharkDo the two name sets intersect?Ã	 futhark-Subtract the latter name set from the former.Ä	 futharkMap over the names in a set.Å	 futhark-Consider a variable to be bound in the given  º	 computation.Æ	 futhark"Take note of a variable reference.Ç	 futhark*Take note of a set of variable references.È	 futharkŽReturn the set of variable names that are free in the given
 statements and result.  Filters away the names that are bound by
 the statements.É	 futhark/The free variables of some syntactic construct.Ê	 futhark1The names bound by the bindings immediately in a  Å.Ë	 futharkThe names bound by a binding.Ì	 futhark The names bound by the bindings.Í	 futhark<The names of the lambda parameters plus the index parameter. ¶	·	¸	¹	º	»	¼	½	¾	¿	À	Á	Â	Ã	Ä	Å	Æ	Ç	È	É	Ê	Ë	Ì	Í	»	¼	½	À	¾	¿	Á	Â	Ã	Ä	¸	¹	É	È	Ê	Ë	Ì	Í	¶	·	º	Å	Æ	Ç	    "       Safe-Inferred!À Â  uñ0ý	 futharkÅ The class of floating-point types that can be used for
 constructing  ƒ
s.þ	 futhark-Construct a typed expression from a rational.ÿ	 futhark>The class of integer types that can be used for constructing
  ƒ
s.€
 futhark>The class of numeric types that can be used for constructing
  ƒ
s.
 futhark-Construct a typed expression from an integer.‚
 futharkï Construct a numeric expression from a boolean expression.  This
 can be used to encode arithmetic control flow.ƒ
 futharkA  †
’ tagged with a phantom type used to provide type-safe
 construction.  Does not guarantee that the underlying expression is
 actually type correct.†
 futharkß A primitive expression parametrised over the representation of
 free variables.  Note that the   ,,  ¡,, and  ¢,<
 instances perform automatic (but simple) constant folding.Note also that the  ¢, instance assumes  ”
 semantics!Ž
 futharkThis expression is of type   .
 futharkThis expression is of type  .
 futharkThis expression is of type  .‘
 futharkThis expression is of type  .’
 futharkThis is a boolean expression.“
 futharkThis expression is of type  £,.”
 futharkThis expression is of type  ¤,.•
 futharkTrue if the  †
Õ  has at least this many nodes.  This can be
 much more efficient than comparing with  ¥, for large
  †
s, as this function is lazy.–
 futharkŸPerform quick and dirty constant folding on the top level of a
 PrimExp.  This is necessary because we want to consider
 e.g. equality modulo constant folding.—
 futharkLifted logical conjunction.˜
 futharkLifted logical conjunction.™
 futharkÊ Lifted relational operators; assuming signed numbers in case of
 integers.š
 futharkÊ Lifted relational operators; assuming signed numbers in case of
 integers.›
 futharkÊ Lifted relational operators; assuming signed numbers in case of
 integers.œ
 futharkÊ Lifted relational operators; assuming signed numbers in case of
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 futharkÊ Lifted relational operators; assuming signed numbers in case of
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 futharkÈ Lifted bitwise operators.  The right-shift is logical, *not* arithmetic.Ÿ
 futharkÈ Lifted bitwise operators.  The right-shift is logical, *not* arithmetic. 
 futharkÈ Lifted bitwise operators.  The right-shift is logical, *not* arithmetic.¡
 futharkÈ Lifted bitwise operators.  The right-shift is logical, *not* arithmetic.¢
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 futharkEvaluate a  †
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 futhark!The type of values returned by a  †
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 futharkIf the given  †
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 futharkBoolean-valued PrimExps.©
 futharkBoolean-valued PrimExps.ª
 futhark#Boolean negation smart constructor.«
 futharkSMax on 32-bit integers.¬
 futharkSMin on 32-bit integers.­
 futharkSMax on 64-bit integers.®
 futharkSMin on 64-bit integers.¯
 futharkSign-extend to 32 bit integer.°
 futharkSign-extend to 64 bit integer.±
 futharkZero-extend to 32 bit integer.²
 futharkZero-extend to 64 bit integer.³
 futhark64-bit float minimum.´
 futhark64-bit float maximum.µ
 futhark)Produce a mapping from the leaves of the  †
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 futhark:Lores in which all annotations support name
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 futharkÞ A type that is an instance of this class supports substitution of
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 futharksubstituteNames m e  replaces the variable names in e* with
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 clGetDeviceInfo()Æ . Make sure to only request info that can be
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s of the the same type. ‘‘    '       Trustworthy!Ð  ‚+
’ futhark#Phantom type for number of threads.“ futhark/Phantom type for the group size of some kernel.” futhark5Phantom type for the number of groups of some kernel.• futharkÈ A wrapper supporting a phantom type for indicating what we are counting.˜ futharkå The class of some kind of configurable size.  Each class may
 impose constraints on the valid values.™ futhark%A threshold with an optional default.ž futharkÅ Likely not useful on its own, but querying the
 maximum can be handy.Ÿ futharkA bespoke size with a default.  futhark÷ An indication of which comparisons have been performed to get to
 this point, as well as the result of each comparison.¡ futhark$The default value for the size.  If  æ+(, that means the backend gets to decide. ’“”•–—˜™š›œžŸ ¡˜™š›œžŸ¡ •–—”“’    (       Safe-Inferred= „®± futharkõA name source is conceptually an infinite sequence of names with
 no repeating entries.  In practice, when asked for a name, the name
 source will return the name along with a new name source, which
 should then be used in place of the original.The  “,Ï  instance is based on how many names have been extracted
 from the name source.² futhark9Produce a fresh name, using the given name as a template.³ futharkA blank name source.´ futhark=A new name source that starts counting from the given number. ±²³´±³´²    )       Safe-InferredÀ Â  ˆaº futharkï A monad that stores a name source.  The following is a good
 instance for a monad in which the only state is a NameSource vn:Ù  instance MonadFreshNames vn MyMonad where
   getNameSource = get
   putNameSource = put
½ futharkÎ Run a computation needing a fresh name source and returning a new
 one, using  » and  ¼# before and after the
 computation.¾ futhark9Produce a fresh name, using the given name as a template.¿ futharkAs newName, but takes a  å+ for the name template.À futharkProduce a fresh  Ê*, using the given base name as a template.Á futharkProduce a fresh  Œ%, using the given name as a template.Â futharkProduce a fresh  Œ, using the given  Œ1 as a template,
 but possibly modifying the name.Ã futharkProduce a fresh  ‚%, using the given name as a template. ±³´º»¼½¾¿ÀÁÂÃº»¼½¾¿ÀÁÂÃ±³´    *       Trustworthy.À Á Â Ð  ÄÍ futhark.Lores in which all annotations are renameable.Î futharkMembers of class  Î can be uniquely renamed.Ï futhark÷ Rename the given value such that it does not contain shadowing,
 and has incorporated any substitutions present in the  Ð
 environment.Ð futhark)The monad in which renaming is performed.Ñ futharkÜRename variables such that each is unique.  The semantics of the
 program are unaffected, under the assumption that the program was
 correct to begin with.  In particular, the renaming may make an
 invalid program valid.Ò futharkÏRename bound variables such that each is unique.  The semantics
 of the expression is unaffected, under the assumption that the
 expression was correct to begin with.  Any free variables are left
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 of the binding is unaffected, under the assumption that the
 binding was correct to begin with.  Any free variables are left
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 correct to begin with.  Any free variables are left untouched.Õ futhark‡Rename bound variables such that each is unique.  The semantics
 of the lambda is unaffected, under the assumption that the body was
 correct to begin with.  Any free variables are left untouched.
 Note in particular that the parameters of the lambda are renamed.Ö futharkÎ Produce an equivalent pattern but with each pattern element given
 a new name.× futharkÉ Rename the bound variables in something (does not affect free variables).Ø futharkPerform a renaming using the  Ø
ˆ instance.  This only
 works if the argument does not itself perform any name binding, but
 it can save on boilerplate for simple types.Ù futharkí Rename some statements, then execute an action with the name
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 it.  An implementation for many lores would be
  ‹.ü futharkA type class for operations.ý futharkLike  ƒ, but for arbitrary ops.þ futhark,Should we try to hoist this out of branches?ÿ futharkÔ A handy shorthand for properties that we usually want to things
 we stuff into ASTs.€ futharkisBuiltInFunction k is  š, if k is an element of  . futhark0A map of all built-in functions and their types.‚ futharkIf the expression is a  ¬, return it, otherwise  æ+.ƒ futhark‚An expression is safe if it is always well-defined (assuming that
 any required certificates have been checked) in any context.  For
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 represents a known arithmetic operator; don't expect anything
 clever here.‡ futharkÑHow many value parameters are accepted by this entry point?  This
 is used to determine which of the function parameters correspond to
 the parameters of the original function (they must all come at the
 end).ˆ futharkA  Ò with empty  ‰.‰ futhark-The certificates associated with a statement.Š futhark Add certificates to a statement.‹ futharkÁ Construct the type of an expression that would match the pattern.Œ futhark1Keep only those attributes that are relevant for  ´
 expressions. ¸‚ƒ„…†‡ˆŒŽŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜïðñòóô¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃäåæçèéêíîëìïðôóñòõö÷øùúû«	¬	­	®	¯	°	±	¶	·	¸	¹	º	»	¼	½	¾	¿	À	Á	Â	Ã	Ä	Å	Æ	Ç	È	É	Ê	Ë	Ì	Í	úûüýþÿ€‚ƒ„…†‡ˆ‰Š‹Œ€‚ƒ„…†‡ˆ‰Š‹Œÿüýþúû    ,       Safe-InferredÀ Á Â Ë Ù  ŸŽ futhark§The class of operations that can be given aliasing information.
 This is a somewhat subtle concept that is only used in the
 simplifier and when using "lore adapters". futhark3The op that results when we add aliases to this op. futharkRemove aliases from this op.‘ futharkAdd aliases to this op.’ futharkÅ Pre-existing aliases for variables.  Used to add transitive
 aliases.“ futharkÏ The class of operations that can produce aliasing and consumption
 information.– futhark*Something that contains alias information.— futhark"The alias of the argument element.˜ futhark5The class of lores that contain aliasing information.™ futhark The aliases of the body results.š futhark#The variables consumed in the body.› futharkThe alises of a subexpression.œ futharkÁ The aliases of an expression, one per non-context value returned. futhark)The variables consumed in this statement.ž futhark*The variables consumed in this expression.Ÿ futhark&The variables consumed by this lambda.  futhark<The aliases of each pattern element (including the context).¡ futharkAlso includes the name itself. Ž‘’“”•–—˜™š›œžŸ ¡›œ ¡˜™š–—žŸ’“”•Ž‘    é       Safe-Inferred  Ÿ‘  Ö nqrts‚ƒ„…†‡ˆÍÒÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßô÷õöøùúûüýþÿ€‚ƒ„…†ˆ‡‰Š‹ŒŽ“‘’”•–—˜šœ›™žŸ £¢¡¤§¥¦¨©ª«¬®­¯°±²³´µ¶·¸¹ŒŽŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜïðñòóô÷þüûúùøÿýøùúûüýþÿ€‚ƒ„‡…†ˆ‰ŠŽ‹Œ‘’“”•˜–—™š›œžŸ ¡¢£¤¥ª©¦§¨«¬À¿¼¹·¶´¯²³­¸½»¾º±°®µÁÂÃÄÅÆÇÊÈÉËÌÍÎÑÏÐÒÓÖÔÕ×ØÙÚÛÜÝÞßàáâãäåæçèé¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆäåæçèéêíîëìïðôóñòõö÷øùúû’	“	›	š	™	˜	—	–	”	•	œ		¥	¤	£	¢	¡	 	ž	Ÿ	¦	§	¨	©	ª	«	¬	­	®	¯	°	±	¶	·	¸	¹	º	»	¼	½	¾	¿	À	Á	Â	Ã	Ä	Å	Æ	Ç	È	É	Ê	Ë	Ì	Í	úûüýþÿ€‚ƒ„…†‡ˆ‰Š‹Œ     -       Safe-Inferredï ð  ©³¦ futhark5A description of how a single variable has been used.§ futharkA usage table.¨ futhark*Remove these entries from the usage table.© futhark&Look up a variable in the usage table.ª futharkÇ Is the variable present in the usage table?  That is, has it been used?« futhark5Expand the usage table based on aliasing information.¬ futharkHas the variable been consumed?­ futhark"Has the variable been used in the  Ë of a body?® futharkæ Has the given name been used directly (i.e. could we rename it or
 remove it without anyone noticing?)¯ futharkÃ Is this name used as the size of something (array or memory block)?° futharkÈ Construct a usage table reflecting that these variables have been
 used.± futharkÕ Construct a usage table where the given variable has been used in
 this specific way.² futharkÃ Construct a usage table where the given variable has been consumed.³ futharkÇ Construct a usage table where the given variable has been used in
 the  Ë of a body.´ futharkÛ Construct a usage table where the given variable has been used as
 an array or memory size.µ futharkÙ Construct a usage table where the given names have been used as
 an array or memory size.¶ futharkÖ Produce a usage table reflecting the use of the free variables in
 a single statement. ¦§¨©ª«¬­®¯°±²³´µ¶§¨©ª«¬­®¯°±²³´µ¦¶    .       Safe-Inferred. ¬©	À futharkÞ A collection of functions that together allow us to rephrase some
 IR fragment, in some monad m.  If we let m be the  §,÷ 
 monad, we can conveniently do rephrasing that might fail.  This is
 useful if you want to see if some IR in e.g. the Kernels lore
 actually uses any Kernels-specific operations.Ê futharkRephrase an entire program.Ë futharkRephrase a function definition.Ì futharkRephrase an expression.Í futharkRephrase a statement.Î futharkRephrase a pattern.Ï futharkRephrase a pattern element.Ð futharkRephrase a body.Ñ futharkRephrase a lambda. ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÊËÌÐÍÑÎÏÀÁÂÃÄÅÆÇÈÉ    /       Trustworthy!Á Ð  ¯LÒ futharkæ This monad is used for computing metrics.  It internally keeps
 track of what we've seen so far.  Use  Õ to add more stuff.Ó futhark'Compute the metrics for some operation.Õ futhark#Add this node to the current tally.Ö futhark—Enclose a metrics counting operation.  Most importantly, this
 prefixes the name of the context to all the metrics computed in the
 enclosed operation.× futhark"Compute the metrics for a program.Ø futhark#Compute metrics for this statement.Ù futhark Compute metrics for this lambda. 
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€×ÓÔÕÖÒØÙ    0       Safe-InferredÁ  ²tâ futharkA mapping from a variable name v,, to those variables on which
 the value of vÐ  is dependent.  The intuition is that we could
 remove all other variables, and vÓ  would still be computable.
 This also includes names bound in loops or by lambdas.ã futhark1Compute the data dependencies for an entire body.ä futhark%findNecessaryForReturned p merge deps) computes which of the
 loop parameters (merge3) are necessary for the result of the loop,
 where pæ  given a loop parameter indicates whether the final value
 of that parameter is live after the loop.  depsæ  is the data
 dependencies of the loop body.  This is computed by straightforward
 fixpoint iteration. âãäâãä    1       NoneÁ Ð ï ð  ¸Uå futharkA compiler pass transforming a  € of a given lore to a  €
 of another lore.ç futharkû Name of the pass.  Keep this short and simple.  It will
 be used to automatically generate a command-line option
 name via  î.è futharkÑ A slightly longer description, which will show up in the
 command-line help text.ê futhark"The monad in which passes execute.ë futhark
Execute a  êÌ  action, yielding logging information and either
 an error text or a result.ì futharkTurn an  ¨, computation into a  ê
.  If the  ¨, is
  î+, the result is a  ·.í futharkTurn an  ¨, monadic computation into a  ê
.  If the  ¨, is
  î+, the result is an exception.î futhark× Take the name of the pass, turn spaces into dashes, and make all
 characters lowercase.ï futharkApply a  êþ  operation in parallel to multiple elements,
 joining together the name sources and logs, and propagating any
 error properly.ð futharkŽApply some operation to the top-level constants.  Then applies an
 operation to all the function function definitions, which are also
 given the transformed constants so they can be brought into scope.
 The function definition transformations are run in parallel (with
  ï'), since they cannot affect each other.ñ futharkLike  ðÊ , but do not change
 the top-level constants, and simply pass along their  ï. åæçèéêëìíîïðñêëìíåæçèéîïñð    2       Safe-InferredÁ Ë Ù  Á÷ futhark¢A monad that supports the creation of bindings from expressions
 and bodies from bindings, with a specific lore.  This is the main
 typeclass that a monad must implement in order for it to be useful
 for generating or modifying Futhark code.  Most importantly
 maintains a current state of  Ì (as well as a  ï) that
 have been added with  ü.ÔVery important: the methods should not have any significant side
 effects!  They may be called more often than you think, and the
 results thrown away.  It is acceptable for them to create new
 bindings, however.ü futharkAdd a statement to the  Ì under construction.ý futharkAdd multiple statements to the  Ì under construction.þ futharkà Obtain the statements constructed during a monadic action,
 instead of adding them to the state.ÿ futharkÖ Add the provided certificates to any statements added during
 execution of the action.€ futhark’The class of lores that can be constructed solely from an
 expression, within some monad.  Very important: the methods should
 not have any significant side effects!  They may be called more
 often than you think, and the results thrown away.  If used
 exclusively within a  ÷Æ  instance, it is acceptable for
 them to create new bindings, however.… futharkÀ Add the given attributes to any statements added by this action.† futharkÌ Add the certificates and attributes to any statements added by
 this action.‡ futhark6Add a statement with the given pattern and expression.ˆ futharkConstruct a  ÍÝ  from identifiers for the context- and value
 part of the pattern, as well as the expression.‰ futharkÆ Like mkLet, but also take attributes and certificates from the
 given  Ò.Š futharkÅ Add a statement with the given pattern element names and
 expression.‹ futharkAs  þ%, but throw away the ordinary result.Œ futhark<Add the statements of the body, then return the body result. futhark1Add several bindings at the outermost level of a  Å.Ž futhark1Add a single binding at the outermost level of a  Å. %±³´º»¼½¾¿ÀÁÂÃ÷øùúûüýþÿ€‚ƒ„…†‡ˆ‰Š‹ŒŽ€‚ƒ„ˆ‰÷øùúûüýþÿŽ‡Š‹Œ…†    3       Trustworthy.;À Á Â Ã Ä Ë Ð Ù  ÇE
 futhark$The most commonly used binder monad. futhark;A monad transformer that tracks statements and provides a
  ÷ë instance, assuming that the underlying monad provides
 a name source.  In almost all cases, this is what you will use for
 constructing statements (possibly as part of a larger monad stack).
 If you find yourself needing to implement  ÷À  from
 scratch, then it is likely that you are making a mistake.‘ futharkA   (and by extension, a  ) is only an instance of
  ÷ß  for lores that implement this type class, which
 contains methods for constructing statements.• futharkÙ Run a binder action given an initial scope, returning a value and
 the statements added ( ü) during the action.– futharkLike  •!, but return only the statements.— futharkLike  •4, but get the initial scope from the current
 monad.˜ futharkLike  –4, but get the initial scope from the current
 monad.™ futharkÂ Run a binder action, returning a value and the statements added
 ( üÝ ) during the action.  Assumes that the current monad
 provides initial scope and name source.š futharkLike  ™Â , but throw away the result and just return the
 added statements.› futharkRun a binder that produces a  Å, and prefix that  Å< by
 the statements produced during execution of the action. 3±³´º»¼½¾¿ÀÁÂÃ÷ÿþýüûúøùø€„ƒ‚…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›•–—˜‘’“”™š›    4       Safe-Inferred
!À Á Â Ë Ó Ù  ÉÚ© futhark'The aliases of what is returned by the  Å%, and what is
 consumed inside of it.ª futhark&Everything consumed in the expression.« futhark&The aliases of the let-bound variable.¬ futharkA wrapper around  ¬) to get around the fact that we need an
  “,) instance, which 'AliasDec does not have.¯ futhark&The lore for the basic representation.» futharkË The aliases of the result and everything consumed in the given
 statements.  nqrts‚ƒ„…†‡ˆÍÒÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßô÷õöøùúûüýþÿ€‚ƒ„…†ˆ‡‰Š‹ŒŽ“‘’”•–—˜šœ›™žŸ £¢¡¤§¥¦¨©ª«¬®­¯°±²³´µ¶·¸¹ŒŽŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜïðñòóô÷þüûúùøÿýøùúûüýþÿ€‚ƒ„‡…†ˆ‰ŠŽ‹Œ‘’“”•˜–—™š›œžŸ ¡¢£¤¥ª©¦§¨«¬À¿¼¹·¶´¯²³­¸½»¾º±°®µÁÂÃÄÅÆÇÊÈÉËÌÍÎÑÏÐÒÓÖÔÕ×ØÙÚÛÜÝÞßàáâãäåæçèé¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆäåæçèéêíîëìïðôóñòõö÷øùúû’	“	›	š	™	˜	—	–	”	•	œ		¥	¤	£	¢	¡	 	ž	Ÿ	¦	§	¨	©	ª	«	¬	­	®	¯	°	±	¶	·	¸	¹	º	»	¼	½	¾	¿	À	Á	Â	Ã	Ä	Å	Æ	Ç	È	É	Ê	Ë	Ì	Í	úûüýþÿ€‚ƒ„…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¯¬­®«ª©·½¸¹º±²³´µ¶°¨¼»    5       Safe-Inferred	!À Á Â Ë Ù  ÏÒ futharkWisdom about an expression.Ó futhark%The wisdom of the let-bound variable. ÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâÖÓÔÕÒÚÛÙÝÞÜ×ØßàáâÏÐÑ    6       Safe-InferredÁ  Ð@ÿ futhark,Perform alias analysis on a Futhark program. ÿ€‚ƒ„ÿ€‚ƒ„    7       Safe-InferredÀ Á Â Ë Ó Ù  Ûú… futharkÊ Instances of this class can be converted to Futhark expressions
 within a  ÷. futharkAs  Ž	, but an  š can be given.˜ futharkConstruct an  µ3 expressions that slices an array with unit stride.™ futhark.Are these indexes out-of-bounds for the array?š futharkä Write to an index of the array, if within bounds.  Otherwise,
 nothing.  Produces the updated array.› futhark1Construct an unspecified value of the given type.œ futhark&Sign-extend to the given integer type. futhark&Zero-extend to the given integer type.ž futharkÀ Apply a binary operator to several subexpressions.  A left-fold.Ÿ futharkTrue if all operands are true.  futharkÓCreate a two-parameter lambda whose body applies the given binary
 operation to its arguments.  It is assumed that both argument and
 result types are the same.  (This assumption should be fixed at
 some point.)¡ futharkAs   
, but for  äs.¢ futharkEasily construct a  “
 within a  ÷.£ futhark)Slice a full dimension of the given size.¤ futharkfullSlice t slice	 returns slice, but with  ?s of
 entire dimensions appended to the full dimensionality of tÐ .  This
 function is used to turn incomplete indexing complete, as required
 by  µ.¥ futhark sliceAt t n slice	 returns slice
 but with  s of the
 outer næ  dimensions prepended, and as many appended as to make it
 a full slice.  This is a generalisation of  ¤.¦ futharkLike  ¤(, but the dimensions are simply numeric.§ futharkÞ Does the slice describe the full size of the array?  The most
 obvious such slice is one that  Ñ s the full span of every
 dimension, but also one that fixes all unit dimensions.© futhark8Conveniently construct a body that contains no bindings.ª futharkÖ Conveniently construct a body that contains no bindings - but
 this time, monadically!« futharkÚ Evaluate the action, producing a body, then wrap it in all the
 bindings it created using  ü.¬ futhark#Evaluate an action that produces a  ËÄ  and an auxiliary
 value, then return the body constructed from the  ËÈ  and any
 statements added during the action, along the auxiliary value.­ futharkAs  ¬", but there is no auxiliary value.® futharkç Change that result where evaluation of the body would stop.  Also
 change type annotations at branches.¯ futharkð Instantiate all existential parts dimensions of the given
 type, using a monadic action to create the necessary  †ì s.
 You should call this function within some monad that allows you to
 collect the actions performed (say,  ©,).² futhark!Can be used as the definition of  „ for a  €&
 instance for simple representations.³ futharkA convenient composition of  ‡ and  †. â ±³´º»¼½¾¿ÀÁÂÃ÷ÿþýüûúøùø€„ƒ‚…†‡ˆ‰Š‹ŒŽ‘”’“•–—˜™š›…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³/‡Šˆ‹Œ‰Ž‘’“”•–—˜›Ÿ™šœ©ª«¬­®ž ¡¢£¤¦§¥¨¯°±²…†³    8       Trustworthy!;À Á Â Ã Ä Ë Ð Ó Ù Û ï ð  âf¶ futhark,The class of lores that can be type-checked.Ã futhark/Used at top level; can be locally changed with  Ü.Ä futhark$The type checker runs in this monad.Å futharkA type error.Ç futhark6Information about an error during type checking.  The  ª,?
 instance for this type produces a human-readable description.Ù futharkÈAdd information about what is being type-checked to the current
 context.  Liberal use of this combinator makes it easier to track
 type errors, as the strings are added to type errors signalled via
  Ø.Û futhark5Proclaim that we have written to the given variables.Þ futharkçPermit consumption of only the specified names.  If one of these
 names is consumed, the consumption will be rewritten to be a
 consumption of the corresponding alias set.  Consumption of
 anything else will result in a type error.â futharkrequire ts se* causes a '(TypeError vn)' if the type of se* is
 not a subtype of one of the types in ts.ã futharkVariant of  â working on variable names.ä futhark‡Type check a program containing arbitrary type information,
 yielding either a type error or a program with complete type
 information.ð futharkRemove all aliases from the  «,. ?¶¾¼¹º¸¿ÀÁ»·½ÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóô?äÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ÄØÙÚ¶¾¼¹º¸¿ÀÁ»·½ÂÃàáÜâãôåèæìêëíîïðñòéóçÛÞßÝ    9       Trustworthy!Á Ð  æõ† futharkŸA compiler pipeline is conceptually a function from programs to
 programs, where the actual representation may change.  Pipelines
 can be composed using their  ¬,
 instance.‡ futhark5Configuration object for running a compiler pipeline.‹ futhark3A compilation always ends with some kind of action. futharkÒ The main Futhark compiler driver monad - basically some state
 tracking on top if  í+.‘ futharkÆ How much information to print to stderr while the compiler is running.’ futharkSilence is golden.“ futhark+Print messages about which pass is running.” futhark'Also print logs from individual passes.• futharkRun a   action.– futhark&Run the pipeline on the given program.— futhark1Construct a pipeline from a single compiler pass.˜ futhark(Create a pipeline from a list of passes. "±²³µ´¶·¸¹º»¼½¾¿†‡ˆ‰Š‹ŒŽ‘’“”•–—˜†‡ˆ‰Š‹ŒŽ•‘’“”—˜–    :       Safe-InferredÁ Ë Ù  çµ§ futharkPerform the substitution. ¥¦§§¦¥    ;       Safe-Inferred  ìÁ¨ futharkConvert an expression to a  †
Ð .  The provided function is
 used to convert expressions that are not trivially  †
Å s.
 This includes constants and variable names, which are passed as
  †s.© futharkLike  ¨, but for a  †.ª futharkConvert  †s of a given type.« futharkShorthand for constructing a  ƒ
	 of type  .¬ futharkShorthand for constructing a  ƒ
	 of type  , from a leaf.­ futharkShorthand for constructing a  ƒ
	 of type  .® futharkShorthand for constructing a  ƒ
	 of type  , from a leaf.¯ futharkShorthand for constructing a  ƒ
	 of type  °.° futharkShorthand for constructing a  ƒ
	 of type  °, from a leaf.± futharkShorthand for constructing a  ƒ
	 of type  ±.² futharkShorthand for constructing a  ƒ
	 of type  ±, from a leaf.³ futhark5Applying a monadic transformation to the leaves in a  †
.´ futharkAs  ³, but in the identity monad.µ futhark3Substituting names in a PrimExp with other PrimExps¶ futhark
Convert a  † slice to a  †
 slice.· futhark
Convert a  †
 slice to a  † slice. è ÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôý	þ	ÿ	€
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¨©ª«¬­®¯°±²³´µ¶·¨ª«¬­®¯°±²©´³µ¶·    <       Safe-InferredÓ  ïáº futhark9A function that, given a subexpression, returns its type.» futhark?A function that, given a variable name, returns its definition.¼ futharkTry to simplify the given  ¬, returning a new  ¬*
 and certificates that it must depend on. º»¼º»¼    =       Safe-Inferred! Ì½ futhark¸An index function is a mapping from a multidimensional array
 index space (the domain) to a one-dimensional memory index space.
 Essentially, it explains where the element at position [i,j,p]· of
 some array is stored inside the flat one-dimensional array that
 constitutes its memory.  For example, we can use this to
 distinguish row-major and column-major representations.2An index function is represented as a sequence of  Âs.Á futhark8ignoring permutations, is the index function contiguous?Â futharkåLMAD's representation consists of a general offset and for each dimension a
 stride, rotate factor, number of elements (or shape), permutation, and
 monotonicity. Note that the permutation is not strictly necessary in that the
 permutation can be performed directly on LMAD dimensions, but then it is
 difficult to extract the permutation back from an LMAD.ÀLMAD algebra is closed under composition w.r.t. operators such as
 permute, index and slice.  However, other operations, such as
 reshape, cannot always be represented inside the LMAD algebra.ºIt follows that the general representation of an index function is a list of
 LMADS, in which each following LMAD in the list implicitly corresponds to an
 irregular reshaping operation.ú However, we expect that the common case is when the index function is one
 LMAD -- we call this the "nice" representation.)Finally, the list of LMADs is kept in an IxFunà together with the shape of
 the original array, and a bit to indicate whether the index function is
 contiguous, i.e., if we instantiate all the points of the current index
 function, do we get a contiguous memory interval??By definition, the LMAD denotes the set of points (simplified):!{ o + Sigma_{j=0}^{k} ((i_j+r_j)  ”: n_j)*s_j,
      forall i_j such that 0<=i_j<n_j, j=1..k }Ð futhark.monotonously increasing, decreasing or unknownÑ futhark6Substitute a name with a PrimExp in an index function.Ò futharkIs this is a row-major array?Ó futharkShape of an index function.Ô futhark1Compute the flat memory index for a complete set inds. of array indices
 and a certain element size 	elem_size.Õ futharkiota with offset.Ö futharkiota.× futharkPermute dimensions.Ø futharkRotate an index function.Ù futharkSlice an index function.Ú futharkReshape an index function.Û futhark=The number of dimensions in the domain of the input function.Ü futhark.Rebase an index function on top of a new base.Ý futharkáIf the memory support of the index function is contiguous and row-major
 (i.e., no transpositions, repetitions, rotates, etc.), then this should
 return the offset from which the memory-support of this index function
 starts.Þ futharkSimilar restrictions to linearWithOffsetÉ  except for transpositions, which
 are returned together with the offset.ß futhark2Is this a row-major array starting at offset zero?à futhark!Generalization (anti-unification)ºAnti-unification of two index functions is supported under the following conditions:
   0. Both index functions are represented by ONE lmad (assumed common case!)
   1. The support array of the two indexfuns have the same dimensionality
      (we can relax this condition if we use a 1D support, as we probably should!)
   2. The contiguous property and the per-dimension monotonicity are the same
      (otherwise we might loose important information; this can be relaxed!)
   3. Most importantly, both index functions correspond to the same permutation
      (since the permutation is represented by INTs, this restriction cannot
       be relaxed, unless we move to a gated-LMAD representation!)â futharkõWhen comparing index functions as part of the type check in KernelsMem,
 we may run into problems caused by the simplifier. As index functions can be
 generalized over if-then-else expressions, the simplifier might hoist some of
 the code from inside the if-then-else (computing the offset of an array, for
 instance), but now the type checker cannot verify that the generalized index
 function is valid, because some of the existentials are computed somewhere
 else. To Work around this, we've had to relax the KernelsMem type-checker
 a bit, specifically, we've introduced this function to verify whether two
 index functions are "close enough" that we can assume that they match. We use
 this instead of `ixfun1 == ixfun2` and hope that it's good enough. &½¾À¿ÁÂÃÄÅÆÇÈÉÊËÌÍÏÐÎÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâ&½¾À¿ÁÂÃÄÅÆÇÈÉÊËÌÍÏÐÎÔÖÕ×ØÚÙÜÓÛÝÞÒßÑàáâ    >       Safe-Inferred.Á Ë Ù  j
þ futharkÔ True if this name has been used as an array size,
 implying that it is non-negative.ÿ futhark'The result of indexing a delayed array.€ futharkÎ A PrimExp based on the indexes (that is, without
 accessing any actual array). futharkÇ The indexing corresponds to another (perhaps more
 advantageous) array.… futhark?Which names are available just before the most enclosing
 loop?† futhark/We are in a situation where we should
 simplifyhoistË un-existentialise memory as much as possible -
 typically, inside a kernel.— futhark,If the given variable name is the name of a  £0 parameter,
 then return the bound of that loop.™ futhark!In symbol table and not consumed.  futharkŽInsert entries corresponding to the parameters of a loop (not
 distinguishing contect and value part).  Apart from the parameter
 itself, we also insert the initial value and the subexpression
 providing the final value.  Note that the latter is likely not in
 scope in the symbol at this point.  This is OK, and can still be
 used to help some loop optimisations detect invariant loop
 parameters.£ futharkÓ Hide these definitions, if they are protected by certificates in
 the set of names. *úûüýþÿ€‚„ƒ…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£*‚„ƒ…†‡ˆ‰üŠýŽþŒ‘’“”•–—˜™¢š›ÿ€‹úûœžŸ¡ £    ?       Safe-Inferred  	© futhark,Some index expressions can be simplified to  †× s, while
 others produce another index expression (which may be further
 simplifiable).¬ futhark#Try to simplify an index operation. ©ª«¬©ª«¬    @       TrustworthyÁ Ë Ð Ù  ƒ­ futhark2A collection of both top-down and bottom-up rules.´ futharkú Context for a rule applied during bottom-up traversal of the
 program.  Takes a symbol table and usage table as arguments.» futharkè Context for a rule applied during top-down traversal of the
 program.  Takes a symbol table as argument.¼ futharkà A simplification rule takes some argument and a statement, and
 tries to simplify the statement.Æ futharkÔ An efficient way of encoding whether a simplification rule should even be attempted.Ç futharkGive it a shot.È futharkDon't bother.É futhark6The monad in which simplification rules are evaluated.Ì futhark1Construct a rule book from a collection of rules.Í futharksimplifyStm lookup bnd) performs simplification of the
 binding bnd¸.  If simplification is possible, a replacement list
 of bindings is returned, that bind at least the same names as the
 original binding (and possibly more, for intermediate results).Î futharksimplifyStm uses bnd) performs simplification of the binding
 bndù.  If simplification is possible, a replacement list of
 bindings is returned, that bind at least the same names as the
 original binding (and possibly more, for intermediate results).
 The first argument is the set of names used after this binding. "­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÈÇÉÊËÌÍÎ"ÉÊËÆÈÇ¼½¾¿ÀÁÅÄÃÂ»µº¹¸·¶´®³²±°¯­ÌÍÎ    A       Safe-InferredÁ  PÚ futhark+foldClosedForm look foldfun accargs arrargs, determines whether
 each of the results of foldfun# can be expressed in a closed form.Û futhark+loopClosedForm pat respat merge bound bodysÃ  determines whether
 the do-loop can be expressed in a closed form. ÚÛÚÛ    B       Safe-Inferred! ±Ü futhark#Standard loop simplification rules. ÜÜ    C       Safe-Inferred!Á Ë Ö Ù Û  gÝ futhark"A set of simplification rules for  ¬s.  Includes rules
 from &Futhark.Optimise.Simplify.Rules.Simple. ÝÝ    D       Safe-Inferred!Á Ë Ö Ù Û   Þ futhark”A set of standard simplification rules.  These assume pure
 functional semantics, and so probably should not be applied after
 memory block merging.ß futharkTurn copy(x) into x iff x? is not used after this copy
 statement and it can be consumed.>This simplistic rule is only valid before we introduce memory. ÞßÞß    E       None.À Á Â Ã Ä Ë Ð Ó Ù ï ð  Bë futharkö Make a hoisted Op safe.  The SubExp is a boolean
 that is true when the value of the statement will
 actually be used.ó futhark+Blocker for hoisting out of parallel loops.ô futhark-Blocker for hoisting out of sequential loops.õ futhark%Blocker for hoisting out of branches.ÿ futharkÀ Indicate in the symbol table that we have descended into a loop.Š futharkSimplify a single body.  The [Diet]É  only covers the value
 elements, because the context cannot be consumed. Å ÏÐÑÐÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâ‚àáâãäåæçèéêëìíîðïñòóôõö÷øùúûüýþÿ€‚ƒ„…†‡ˆ‰Š‹ŒŽ0åûçèéêëìíæúîðïùñòóôõö‚÷øä„ˆ…ƒ†‰üýþâàá‹ŽŒ€Šã‚‡ÿ    F       NoneÁ  !¦ futharkSimplify a  †
$, including copy propagation.  If a  ‡

 refers to a name that is a  ‡, the node turns into a
  ˆ
.§ futharkLike  ¦, but where leaves may be  ¬s. ¦§¦§    G       None.Á Ó ï ð  œ¨ futhark¶Simplify the given program.  Even if the output differs from the
 output, meaningful simplification may not have taken place - the
 order of bindings may simply have been rearranged.© futhark.Run a simplification operation to convergence.ª futharkÛSimplify the given function.  Even if the output differs from the
 output, meaningful simplification may not have taken place - the
 order of bindings may simply have been rearranged.  Runs in a loop
 until convergence.« futharkSimplify just a single  “.¬ futharkSimplify a sequence of  Ís. ­âåæçèéêëìíñ÷øú¨©ª«¬¨©ª«¬çèéêëìíåæú÷øâñ­    H       None.Á  ®­ futhark*Run copy propagation on an entire program.® futhark(Run copy propagation on some statements.¯ futhark#Run copy propagation on a function. ­®¯­®¯    I       NoneÀ Â Ë Ù  I° futhark,The phantom type for the Seq representation.± futharkSimplify a sequential program. Ø nqrts‚ƒ„…†‡ˆÍÒÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßô÷õöøùúûüýþÿ€‚ƒ„…†ˆ‡‰Š‹ŒŽ“‘’”•–—˜šœ›™žŸ £¢¡¤§¥¦¨©ª«¬®­¯°±²³´µ¶·¸¹ŒŽŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜïðñòóô÷þüûúùøÿýøùúûüýþÿ€‚ƒ„‡…†ˆ‰ŠŽ‹Œ‘’“”•˜–—™š›œžŸ ¡¢£¤¥ª©¦§¨«¬À¿¼¹·¶´¯²³­¸½»¾º±°®µÁÂÃÄÅÆÇÊÈÉËÌÍÎÑÏÐÒÓÖÔÕ×ØÙÚÛÜÝÞßàáâãäåæçèé¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆäåæçèéêíîëìïðôóñòõö÷øùúû’	“	›	š	™	˜	—	–	”	•	œ		¥	¤	£	¢	¡	 	ž	Ÿ	¦	§	¨	©	ª	«	¬	­	®	¯	°	±	¶	·	¸	¹	º	»	¼	½	¾	¿	À	Á	Â	Ã	Ä	Å	Æ	Ç	È	É	Ê	Ë	Ì	Í	úûüýþÿ€‚ƒ„…†‡ˆ‰Š‹Œ°±°±    J       Safe-Inferred
!.À Á Â Ë Ù  7ò'º futharkLike  œ	, but just for  ×s.¿ futhark)How to compute a single reduction result.Ä futhark$How to compute a single scan result.È futharkThe essential parts of a  Û4 factored out (everything
 except the input arrays).Ê futharkWhat kind of stream is this?Í futharkß Is the stream chunk required to correspond to a contiguous
 subsequence of the original input ( Î) or not?   ÏÈ 
 streams can be more efficient, but not all algorithms work with
 this.Ð futhark/Information about computing a single histogram.Ó futharkRace factor RF means that only 1/RF
 bins are used.× futhark'A second-order array combinator (SOAC).Ù futharkScatter length  lambda  inputs  outputs ÅScatter maps values from a set of input arrays to indices and values of a
 set of output arrays. It is able to write multiple values to multiple
 outputs each of which may have multiple dimensions.inputs , is a list of input arrays, all having size length (, elements of
 which are applied to the lambda 3 function. For instance, if there are
 two arrays, lambda 3 will get two values as input, one from each array.outputs  specifies the result of the lambda Ç  and which arrays to write
 to. Each element of the list consists of a VName * specifying which array
 to scatter to, a Shape , describing the shape of that array, and an Int Û 
 describing how many elements should be written to that array for each
 invocation of the lambda .lambda & is a function that takes inputs from inputs > and returns values
 according to the output-specification in outputs -. It returns values in
 the following manner:
>index_0, index_1, ..., index_n, value_0, value_1, ..., value_m For each output in outputs , lambda 	 returns i  * j  index values and
 j  output values, where i > is the number of dimensions (rank) of the
 given output, and j = is the number of output values written to the given
 output.6For example, given the following output specification:
([x1, y1, z1 , 2, arr1), ([x2, y2], 1, arr2)]lambda > will produce 6 (3 * 2) index values and 2 output values for
 arr1 Í, and 2 (2 * 1) index values and 1 output value for
 arr2. Additionally, the results are grouped, so the first 6 index values
 will correspond to the first two output values, and so on. For this
 example, lambda É  should return a total of 11 values, 8 index values and
 3 output values.Ú futharkHist length  dest-arrays-and-ops  bucketfun inputarraysî The first SubExp is the length of the input arrays. The first
 list describes the operations to perform.  The  “: is the
 bucket function.  Finally comes the input images.Û futhark7A combination of scan, reduction, and map.  The first
  †! is the size of the input arrays.Ü futhark1How many reduction results are produced by these  Äs?Ý futhark5Combine multiple scan operators to a single operator.Þ futhark1How many reduction results are produced by these  ¿s?ß futhark:Combine multiple reduction operators to a single operator.à futharkThe types produced by a single  Û%, given the size of the
 input array.á futharkß Construct a lambda that takes parameters of the given types and
 simply returns them unchanged.â futhark'Is the given lambda an identity lambda?ã futhark3A lambda with no parameters that returns no values.ä futharkÍ Construct a Screma with possibly multiple scans, and
 the given map function.å futharkÒ Construct a Screma with possibly multiple reductions, and
 the given map function.æ futharkÌ Construct a Screma with possibly multiple scans, and identity map
 function.ç futharkÑ Construct a Screma with possibly multiple reductions, and
 identity map function.è futhark*Construct a Screma corresponding to a map.é futhark6Does this Screma correspond to a scan-map composition?ê futhark)Does this Screma correspond to pure scan?ë futhark8Does this Screma correspond to a reduce-map composition?ì futhark-Does this Screma correspond to a pure reduce?í futharkÔ Does this Screma correspond to a simple map, without any
 reduction or scan results?î futharkgroupScatterResults outputspecification results -Groups the index values and result values of results  according to the
 outputspecification.ý This function is used for extracting and grouping the results of a
 scatter. In the SOAC representation, the lambda inside a  Ùˆ returns
 all indices and values as one big list. This function groups each value with
 its corresponding indices (as determined by the  ¯ of the output array).ÞThe elements of the resulting list correspond to the shape and name of the
 output parameters, in addition to a list of values written to that output
 parameter, along with the array indices marking where to write them to.See  Ù for more information.ï futharkgroupScatterResults' outputspecification results -Groups the index values and result values of results È  according to the
 output specification. This is the simpler version of groupScatterResultsÆ ,
 which doesn't return any information about shapes or output arrays.See  î for more information,ð futharksplitScatterResults outputspecification results Ø Splits the results array into indices and values according to the output
 specification.See  î for more information.ñ futhark/A mapper that simply returns the SOAC verbatim.ò futhark˜Map a monadic action across the immediate children of a
 SOAC.  The mapping does not descend recursively into subexpressions
 and is done left-to-right.ó futharkThe type of a SOAC.ô futharkType-check a SOAC.õ futharkPrettyprint the given Screma.ö futhark*Prettyprint the given histogram operation. =º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊÌËÍÎÏÐÑÔÒÓÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôõö=×ØÙÚÛÍÎÏÊÌËÈÉÐÑÔÒÓÕÖÄÅÆÇÜÝ¿ÀÁÂÃÞßàóôáâãäåæçèéëêìíõöîïðº»¼½¾ñò    K       Safe-InferredÁ Ë Ù  <¹™ futharkTurns a binding of a redomap  into two seperate bindings, a
 map binding and a reduce" binding (returned in that order).$Reuses the original pattern for the reduce&, and creates a new
 pattern with new  Œs for the result of the map.%Only handles a pattern with an empty  Ú.š futhark†Turn a Screma into a Scanomap (possibly with mapout parts) and a
 Redomap.  This is used to handle Scremas that are so complicated
 that we cannot directly generate efficient parallel code for them.
 In essense, what happens is the opposite of horisontal fusion.› futharkÕ Turn a stream SOAC into statements that apply the stream lambda
 to the entire input.œ futharkÈSplit the parameters of a stream reduction lambda into the chunk
 size parameter, the accumulator parameters, and the input chunk
 parameters.  The integer argument is how many accumulators are
 used. Î ÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôý	þ	ÿ	€
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 first-order transformation.¯ futharkã The constraints that must hold for a lore in order to be the
 target of first-order transformation.° futharkß First-order-transform a single function, with the given scope
 provided by top-level constants.± futhark0First-order-transform these top-level constants.² futharkFirst transform any nested  ¤ or  ¡ elements, then
 apply  ³ if the expression is a SOAC.³ futharkTransform a single  ×Û  into a do-loop.  The body of the lambda
 is untouched, and may or may not contain further  ×s depending
 on the given lore.´ futhark+Recursively first-order-transform a lambda. ®¯°±²³´°±¯®²´³    N       NoneÁ Ë Ù  Keµ futhark$The first-order transformation pass. µµ    O       Safe-InferredÁ Ë Ù  LÌ¶ futhark1Interchange Scan With Inner Map. Tries to turn a 	scan(map) into a
 @map(scan)· futhark3Interchange Reduce With Inner Map. Tries to turn a reduce(map) into a
 @map(reduce)¸ futharkÙ Does this reduce operator contain an inner map, and if so, what
 does that map look like? ¶·¸¶·¸           Trustworthy
!À Â Ã Ä Ë Ð Ù  NlÀ futharkÙ A mapping from external variable names to the corresponding
 internalised subexpressions.Å futhark;Add a function definition to the program being constructed.Ì futharkConstruct an  ´à  statement, but taking attributes into
 account.  Always use this function, and never construct  ´
 directly in the internaliser! ã mÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôý	þ	ÿ	€
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±³´º»¼½¾¿ÀÁÂÃ÷ÿþýüûúøùø€„ƒ‚…†‡ˆ‰Š‹ŒŽ‘”’“•–—˜™š›…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³¨©ª«¬­®¯°±²³´µ¶·™š›œ¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌ¹ÂmÀº»¼½¾¿ÁÃÄÅÇÆÈÉÊËÌ    P       Safe-InferredÁ  R<Þ futhark­Reshape the arguments to a function so that they fit the expected
 shape declarations.  Not used to change rank of arguments.  Assumes
 everything is otherwise type-correct. ÙÚÛÜÝÞÙÚÛÜÝÞ    Q       NoneÀ Á Â Ã Ä Ë Ù Û  S”ß futharkDoes this lore contain  ×	s in its  ÿÓ s?  A lore must be an
 instance of this class for the simplification rules to work.ë futharkí Remove all arguments to the map that are simply replicates.
 These can be turned into free variables instead. ¦ßàáâãäåæçèéêëìãåäæçâèéßàáìëê¦    R       Safe-Inferred! V”ò futharkŸThe call graph is a mapping from a function name, i.e., the
 caller, to a set of the names of functions called *directly* (not
 transitively!) by the function.>We keep track separately of the functions called by constants.ó futhark.Is the given function known to the call graph?ô futhark(Does the first function call the second?õ futhark/Is the function called in any of the constants?ö futhark&All functions called by this function.÷ futharkbuildCallGraph prog  build the program's call graph.ø futharkï The set of all functions that are called noinline somewhere, or
 have a noinline attribute on their definition. òóôõö÷øò÷óôõöø    S       None!.À Á Â Ã Ä Ë Ù  `û futharkß The memory return of a function, which must always indicate where
 returned arrays are located.ü futharkÔ The return of a body, which must always indicate where
 returned arrays are located.ý futharkÁ The memory return of an expression.  An array is annotated with
 Maybe MemReturnû , which can be interpreted as the expression
 either dictating exactly where the array is located when it is
 returned (if  ­,8), or able to put it whereever the binding
 prefers (if  æ+).´This is necessary to capture the difference between an expression
 that is just an array-typed variable, in which the array being
 "returned" is located where it already is, and a copy² expression,
 whose entire purpose is to store an existing array in some
 arbitrary location.  This is a consequence of the design decision
 never to have implicit memory copies.þ futharkÓ A description of the memory properties of an array being returned
 by an operation.ÿ futharkÁ The array is located in a memory block that is
 already in scope.€ futhark8The operation returns a new (existential) memory
 block. futhark?Memory information for an array bound somewhere in the program.‚ futhark7Located in this memory block with this index
 function.„ futhark¹A summary of the memory information for every let-bound
 identifier, function parameter, and return value.  Parameterisered
 over uniqueness, dimension, and auxiliary array information.… futharkA primitive value.† futharkA memory block.‡ futhark…The array is stored in the named memory block, and with the
 given index function.  The index function maps indices in the
 array to element	 offset, notì  byte offsets!  To translate to
 byte offsets, multiply the offset with the size of the array
 element type.ˆ futhark-An accumulator, which is not stored anywhere.‰ futhark9An index function that may contain existential variables.Š futhark>The index function representation used for memory annotations.Œ futharkà Allocate a memory block.  This really should not be an
 expression, but what are you gonna do... futhark-The class of ops that have memory allocation.¥ futharkû The return information of an expression.  This can be seen as the
 "return type with memory annotations" of the expression. Ì nqrts‚ƒ„…†‡ˆÍÒÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßô÷õöøùúûüýþÿ€‚ƒ„…†ˆ‡‰Š‹ŒŽ“‘’”•–—˜šœ›™žŸ £¢¡¤§¥¦¨©ª«¬®­¯°±²³´µ¶·¸¹ŒŽŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜïðñòóô÷þüûúùøÿýøùúûüýþÿ€‚ƒ„‡…†ˆ‰ŠŽ‹Œ‘’“”•˜–—™š›œžŸ ¡¢£¤¥ª©¦§¨«¬À¿¼¹·¶´¯²³­¸½»¾º±°®µÁÂÃÄÅÆÇÊÈÉËÌÍÎÑÏÐÒÓÖÔÕ×ØÙÚÛÜÝÞßàáâãäåæçèé¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆäåæçèéêíîëìïðôóñòõö÷øùúû’	“	›	š	™	˜	—	–	”	•	œ		¥	¤	£	¢	¡	 	ž	Ÿ	¦	§	¨	©	ª	«	¬	­	®	¯	°	±	¶	·	¸	¹	º	»	¼	½	¾	¿	À	Á	Â	Ã	Ä	Å	Æ	Ç	È	É	Ê	Ë	Ì	Í	ý	þ	ÿ	€
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úûüýþÿ€‚ƒ„…†‡ˆ‰Š‹Œ¨©ª«¬­®¯°±²³´µ¶·ùúûüýþÿ€‚ƒ„…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥-•”“’‘‹Œ„…†‡ˆƒ‚þÿ€Š‰–ýüû˜™Žùú¤¥£žŸ —œš›¢¡    T       None.;À Á Â Ã Ä Ë Ð Ó Ù  hÛÝ futhark2Monad for adding allocations to an entire program.á futharkÝ Aggressively try to reuse memory in do-loops -
 should be True inside kernels, False outside.â futhark—When allocating memory, put it in this memory space.
 This is primarily used to ensure that group-wide
 statements store their results in local memory.ã futharkÈ The set of names that are known to be constants at
 kernel compile time.ê futharkÔ The subexpression giving the number of elements we should
 allocate space for.  See  ®,	 comment.ë futhark;Get those names that are known to be constants at run-time.î futhark.Allocate memory for a value of the given type. »¯,°,±,²,³,´, ,µ,¶,·,¸,¹,¦,º,», ¼,½,¾,Œ,¿,À,Á,Â,Ã,Ä,Å,Æ,Ç,È,É,Ê,Ë,Ì,Í,Î,Ï,Ð,Ñ,Ò,Ó,Ô,Õ,Ö,×,Ø,Ù,Ú,Û,Ü,Ý,Þ,ß,à,á,â,ã,ä,å,æ,ç,›,è,é,ê,ë,ÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôý	þ	ÿ	€
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±³´º»¼½¾¿ÀÁÂÃåæéçèêëìíîïðñ÷ÿþýüûúøùø€„ƒ‚…†‡ˆ‰Š‹ŒŽ‘”’“•–—˜™š›…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³¨©ª«¬­®¯°±²³´µ¶·™š›œ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôõïð×ØÙõæçèéêëìÝÞßàáâãäåÚÛÜñîôíòó    U       None!.4À Á Â Ë Ù Û  |¶$Œ futharkDoes this lore contain  —	s in its  ÿÓ s?  A lore must be an
 instance of this class for the simplification rules to work. futharkLike  œ	, but just for  —s.— futharkA  —• is semantically a perfectly nested stack of maps, on
 top of some bottommost computation (scalar computation, reduction,
 scan, or histogram).  The  œ% encodes the original map
 structure.All  —Òs are parameterised by the representation of their body,
 as well as a *level*.  The *level* is a representation-specific bit
 of information.  For example, in GPU backends, it is used to
 indicate whether the  —< is expected to run at the thread-level
 or the group-level.™ futharkó The KernelSpace must always have at least two dimensions,
 implying that the result of a SegRed is always an array.œ futharkIndex space of a  —.ž futharkë Flat physical index corresponding to the
 dimensions (at code generation used for a
 thread ID or similar).  futharkÆDo we need group-virtualisation when generating code for the
 segmented operation?  In most cases, we do, but for some simple
 kernels, we compute the full number of groups in advance, and then
 virtualisation is an unnecessary (but generally very small)
 overhead.  This only really matters for fairly trivial but very
 wide mapÃ  kernels where each thread performs constant-time work on
 scalars.£ futharkžNot only do we not need virtualisation, but we _guarantee_
 that all physical threads participate in the work.  This can
 save some checks in code generation.¤ futharkA  ® does not return an ordinary  Ë(.  Instead, it
 returns a list of these.¥ futharkû Each "worker" in the kernel returns this.
 Whether this is a result-per-thread or a
 result-per-group depends on where the  — occurs.ª futhark8Metadata about whether there is a subtle point to this
  ¤Ð.  This is used to protect things like tiling, which
 might otherwise be removed by the simplifier because they're
 semantically redundant.  This has no semantic effect and can be
 ignored at code generation.« futharkDon't simplify this one!¬ futharkGo nuts.­ futharkñ The results produced are only used within the
 same physical thread later on, and can thus be
 kept in registers.® futharkThe body of a  —.³ futharkAn operator for  š and  ™.¸ futharkÕIn case this operator is semantically a vectorised
 operator (corresponding to a perfect map nest in the
 SOACS representation), these are the logical
 "dimensions".  This is used to generate more efficient
 code.¹ futharkAn operator for  ›.¿ futharkÕIn case this operator is semantically a vectorised
 operator (corresponding to a perfect map nest in the
 SOACS representation), these are the logical
 "dimensions".  This is used to generate more efficient
 code.Á futhark"How an array is split into chunks.Ä futhark&The type of a histogram produced by a  ¹/.  This can be
 different from the type of the  ½5s in case we are
 dealing with a segmented histogram.Å futhark1How many reduction results are produced by these  ³s?Æ futharkÌ Split some list into chunks equal to the number of values
 returned by each  ³Ç futharkGet the root  † corresponding values for a  ¤.È futharkPerform alias analysis on a  ®.É futhark*The variables consumed in the kernel body.Ê futhark(The sizes spanned by the indexes of the  œ.Ë futharkA  ï< containing all the identifiers brought into scope by
 this  œ.Ì futharkThe level of a  —.Í futharkThe space of a  —.Î futharkType check a  — , given a checker for its level.Ï futhark!A mapper that simply returns the  —
 verbatim.Ð futharkApply a   to the given  —.Ñ futharkSimplify the given  —.Ò futhark%Simplification rules for simplifying  —s.Ó futharkLike  ì,!, but for memory representations. È ŒŽ‘’“”•–—›˜™šœžŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º½»¼¾À¿ÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÈ —›˜™š ¡¢£ÌÍÎœžŸËÊ¹º½»¼¾À¿Ä³´µ¶·¸ÅÆ®¯°±²ÈÉª«¬­¤¥¦§¨©ÇÁÂÃ‘’“”•–ÏÐÑŒŽÒÓ    V       None.Á Ë Ù  ~t” futhark<Constraints pertinent to performing distribution/flattening.› futharkSegment indexes and sizes.Š‹ŒŽ‘’“”•–—˜™š›œ”‘’“–š—›˜œŠ‹ŒŽ•™    W       None.À Á Â Ã Ä Ë Ó Ù Û â  ‚žŸ futharká Note: first element is *outermost* nesting.  This is different
 from the similar types elsewhere!« futharkîFirst pair element is the very innermost ("current") target.  In
 the list, the outermost target comes first.  Invariant: Every
 element of a pattern must be present as the result of the
 immediately enclosing target.  This is ensured by  ±&
 by removing unused pattern elements.» futhark&Retrieve the innermost kernel nesting.¼ futharkö Add new outermost nesting, pushing the current outermost to the
 list, also taking care to swap patterns if necessary.½ futharká Add new innermost nesting, pushing the current outermost to the
 list.  It is important that the  ¬Õ  has the right order
 (non-permuted compared to what is expected by the outer nests).Ä futharkFlatten a kernel nesting to:	The index space.:The kernel inputs - note that some of these may be unused. (Ÿ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆ(¬«­®¯°±²³¥¦§¨©ªµ´¡¢£¤ ¶¹·¸Ÿº¾»¼½¿ÂÀÁÄÃÅÆ    X       NoneÁ Ë Ó Ù  „ÐÎ futharkß An encoding of a sequential do-loop with no existential context,
 alongside its result pattern.Ð futharkÕGiven a (parallel) map nesting and an inner sequential loop, move
 the maps inside the sequential loop.  The result is several
 statements - one of these will be the loop, which will then contain
 statements with map expressions. 	ÊËÌÍÎÏÐÑÒ	ÎÏÐÌÍÑÊËÒ    Y       None!À Á Â Ã Ä Ë Ð Ö Ù Û â  …+  !ÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòó!áâãëìñðØÙÚÛÜÝÞßàÔÕÖ×çÓæóîïíäåòèéê    Z       None
.À Á Â Ã Ä Ë Ù  †2 futharkÅ Some constraints that must hold for the simplification rules to work. ‚ƒ„ƒ„‚    [       None!Á Ë Ù  ‡ï… futhark’An operation for the multicore representation.  Feel free to
 extend this on an ad hoc basis as needed.  Parameterised with some
 other operation.† futhark
The first  —‰ (if it exists) contains nested parallelism,
 while the second one has a fully sequential body.  They are
 semantically fully equivalent.‡ futhark*Something else (in practice often a SOAC). Î ŒŽ‘–•”’“—š™›˜œžŸ £¡¢¤©¨§¥¦ª­«¬®¯²°±³´¸·µ¶¹º¿À¾¼½»ÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓ…†‡ˆ‰…†‡ˆ‰    \       None
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 threads in a kernel.  Returns the number of
 elements in the chunk that the current thread
 should take.w5 is the length of the outer dimension in
 the array. i: is the current thread
 index. Each thread takes at most
 elems_per_thread
 elements.If the order o is  Â, thread with index i
 should receive elements
 Ú i*elems_per_tread, i*elems_per_thread + 1,
 ..., i*elems_per_thread + (elems_per_thread-1).If the order o is  Ã stride$,
 the thread will receive elements =i,
 i+stride, i+2*stride, ...,
 i+(elems_per_thread-1)*stride.´ futhark'Produce some runtime-configurable size.µ futharkThe maximum size of some class.¶ futhark:Compare size (likely a threshold) with some integer value.· futhark)CalcNumGroups w max_num_groups group_sizeÖ  calculates the
 number of GPU workgroups to use for an input of the given size.
 The Name is a size name.  Note that w% is an i64 to avoid
 overflow issues.¸ futharkAt which level the *body* of a  —
 executes. ê ’“”•–—˜Ÿžœ›™š ¡ŒŽ‘–•”’“—š™›˜œžŸ £¡¢¤©¨§¥¦ª­«¬®¯²°±³´¸·µ¶¹º¿À¾¼½»ÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓ®¯°±²¶´µ³·¸¹º»¼½¾²¶´µ³·®¯°±¾¸¹º»¼½    _       NoneÀ Á Â Ã Ä  Ÿ<à futharkThe operations that permit CSE.á futhark+Perform CSE on every function in a program.ÞIf the boolean argument is false, the pass will not perform CSE on
 expressions producing arrays. This should be disabled when the lore has
 memory information, since at that point arrays have identity beyond their
 value.â futhark!Perform CSE on a single function.ÞIf the boolean argument is false, the pass will not perform CSE on
 expressions producing arrays. This should be disabled when the lore has
 memory information, since at that point arrays have identity beyond their
 value.ã futharkPerform CSE on some statements.ÞIf the boolean argument is false, the pass will not perform CSE on
 expressions producing arrays. This should be disabled when the lore has
 memory information, since at that point arrays have identity beyond their
 value. àáâãáâãà    `       None!Á   9ê futhark=Inline all functions and remove the resulting dead functions.ë futharkremoveDeadFunctions progÕ  removes the functions that are unreachable from
 the main function from the program. êëêë    a       None
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’“”•–—˜Ÿžœ›™š ¡úûüýþÿ€‚ƒ„…†‡ˆ‰Š‹Œ¨©ª«¬­®¯°±²³´µ¶·ùúûüýþÿ€‚ƒ„ˆ‡…†‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥ŒŽ‘–•”’“—š™›˜œžŸ £¡¢¤©¨§¥¦ª­«¬®¯²°±³´¸·µ¶¹º¿À¾¼½»ÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓ®±¯°²·³µ¶´¸¹º½»¼¾ìíîìíî    b       NoneÀ Á Â  ¦ý  ô÷÷ô    c       NoneÀ Â Ë Ù  §pø futhark5The phantom data type for the kernels representation. ÷ nqrts‚ƒ„…†‡ˆÍÒÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßô÷õöøùúûüýþÿ€‚ƒ„…†ˆ‡‰Š‹ŒŽ“‘’”•–—˜šœ›™žŸ £¢¡¤§¥¦¨©ª«¬®­¯°±²³´µ¶·¸¹ŒŽŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜïðñòóô÷þüûúùøÿýøùúûüýþÿ€‚ƒ„‡…†ˆ‰ŠŽ‹Œ‘’“”•˜–—™š›œžŸ ¡¢£¤¥ª©¦§¨«¬À¿¼¹·¶´¯²³­¸½»¾º±°®µÁÂÃÄÅÆÇÊÈÉËÌÍÎÑÏÐÒÓÖÔÕ×ØÙÚÛÜÝÞßàáâãäåæçèé¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆäåæçèéêíîëìïðôóñòõö÷øùúû’	“	›	š	™	˜	—	–	”	•	œ		¥	¤	£	¢	¡	 	ž	Ÿ	¦	§	¨	©	ª	«	¬	­	®	¯	°	±	¶	·	¸	¹	º	»	¼	½	¾	¿	À	Á	Â	Ã	Ä	Å	Æ	Ç	È	É	Ê	Ë	Ì	Í	’“”•–—˜Ÿžœ›™š ¡úûüýþÿ€‚ƒ„…†‡ˆ‰Š‹Œº»¾¼½¿ÀÃÁÂÄÅÆÇÈÉÊÌËÍÎÏ×ÛÚØÙÜÝÞßàáâãäåæçèéêëìíîïðñòóôõöŒŽ‘–•”’“—š™›˜œžŸ £¡¢¤©¨§¥¦ª­«¬®¯²°±³´¸·µ¶¹º¿À¾¼½»ÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓ®±¯°²·³µ¶´¸¹º½»¼¾ø7øº»¾¼½¿ÀÃÁÂÄÅÆÇÈÉÊÌËÍÎÏ×ÛÚØÙÜÝÞßàáâãäåæçèéêëìíîïðñòóôõö    d       NoneÁ Ë Ù  ® futharkThe pass definition.     e       None.Á Ë Ù  ®1  ‚ƒ„…†‡ˆ‚ƒ†…ˆ‡„    f       None!Ë Ð Ó Ù  ®u  ‰‰    g       None.Á Ë Ù  ¯1“ futharkLike  ƒõ , but cap the thread count to the input size.
 This is more efficient for small kernels, e.g. summing a small
 array. ‘’““‘’    h       None!À Á Â Ë Ù  ²— futharkÅConvert the statements inside a map nest to kernel statements,
 attempting to parallelise any remaining (top-level) parallel
 statements.  Anything that is not a map, scan or reduction will
 simply be sequentialised.  This includes sequential loops that
 contain maps, scans or reduction.  In the future, we could probably
 do something more clever.  Make sure that the amount of parallelism
 to be exploited does not exceed the group size.  Further, as a hack
 we also consider the size of all intermediate arrays as
 "parallelism to be exploited" to avoid exploding local memory.Ó We distinguish between "minimum group size" and "maximum
 exploitable parallelism". ——    i       None!À Á Â Ã Ä Ë Ð Ö Ù Û â  ²Ð› futharkñ Transform a program using SOACs to a program using explicit
 kernels, using the kernel extraction transformation. ››    j       None  ´"¤ futharkÒ The variance table keeps a mapping from a variable name
 (something produced by a  ÍÆ) to the kernel thread indices
 that name depends on.  If a variable is not present in this table,
 that means it is bound outside the kernel (and so can be considered
 invariant to all dimensions). ¤¥¦§¨©ª¥¦§¨¤ª©    k       None.Á Ë Ù  ´¯« futharkSinking in GPU kernels.¬ futharkSinking for multicore. «¬«¬    l       NoneÁ Ë Ù  µ° futharkName of result.± futharkType of result. ­®¯°±²³´µ¶··¶­®¯°±²³´µ    m       None.À Á Â Ã Ä Ë Ð Ù  ¶\» futhark>Apply the in-place lowering optimisation to the given program.¼ futhark>Apply the in-place lowering optimisation to the given program.½ futhark>Apply the in-place lowering optimisation to the given program. »¼½»¼½    n       NoneÁ Ë Ù  ºÉ futharkÊExpects a kernel statement as argument.
   CONDITIONS for 3D tiling optimization to fire are:
     1. a) The kernel body can be broken into
              scalar-code-1 ++ [Redomap stmt] ++ scalar-code-2.
        b) The kernels has a per-thread result, and obviously
              the result is variant to the 3rd dimension
              (counted from innermost to outermost)
     2. For the Redomap:
          a) the streamed arrays are one dimensional
          b) each of the array arguments of Redomap are variant
              to exactly one of the three innermost-parallel dimension
              of the kernel. This condition can be relaxed by interchanging
              kernel dimensions whenever possible.
     3. For scalar-code-1:
          a) each of the statements is a slice that produces one of the
             streamed arrays¡mmBlkRegTiling :: Stm Kernels -> TileM (Maybe (Stms Kernels, Stm Kernels))
 mmBlkRegTiling (Let pat aux (Op (SegOp (SegMap SegThread{} seg_space ts old_kbody)))) ÈÉÈÉ    o       NoneÁ Ë Ù â  ºßÊ futharkThe pass definition. ÊÊ    p       None
.À Á Â Ã Ä Ë Ù  »  øÍÎÏÍÎøÏ    q       NoneÁ Ë Ù  »”Ó futharkThe pass for GPU kernels.Ô futharkThe pass for multicore. ÓÔÓÔ    r       None
.À Á Â Ã Ä Ë Ù  »Ê  º nqrts‚ƒ„…†‡ˆÍÒÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßô÷õöøùúûüýþÿ€‚ƒ„…†ˆ‡‰Š‹ŒŽ“‘’”•–—˜šœ›™žŸ £¢¡¤§¥¦¨©ª«¬®­¯°±²³´µ¶·¸¹ŒŽŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜïðñòóô÷þüûúùøÿýøùúûüýþÿ€‚ƒ„‡…†ˆ‰ŠŽ‹Œ‘’“”•˜–—™š›œžŸ ¡¢£¤¥ª©¦§¨«¬À¿¼¹·¶´¯²³­¸½»¾º±°®µÁÂÃÄÅÆÇÊÈÉËÌÍÎÑÏÐÒÓÖÔÕ×ØÙÚÛÜÝÞßàáâãäåæçèé¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆäåæçèéêíîëìïðôóñòõö÷øùúû’	“	›	š	™	˜	—	–	”	•	œ		¥	¤	£	¢	¡	 	ž	Ÿ	¦	§	¨	©	ª	«	¬	­	®	¯	°	±	¶	·	¸	¹	º	»	¼	½	¾	¿	À	Á	Â	Ã	Ä	Å	Æ	Ç	È	É	Ê	Ë	Ì	Í	ý	þ	ÿ	€
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’“”•–—˜Ÿžœ›™š ¡úûüýþÿ€‚ƒ„…†‡ˆ‰Š‹Œ¨©ª«¬­®¯°±²³´µ¶·ùúûüýþÿ€‚ƒ„ˆ‡…†‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥ŒŽ‘–•”’“—š™›˜œžŸ £¡¢¤©¨§¥¦ª­«¬®¯²°±³´¸·µ¶¹º¿À¾¼½»ÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓ®±¯°²·³µ¶´¸¹º½»¼¾ÕÖ×ØÕÖ×Ø    s       NoneÁ  ÂX  áâãäåæçèáâäåãæçè    t       NoneÀ Á Â Ë Ù  Â¡  éêéê    u       NoneÀ Á Â Ë Ù  ÂÒ  ìì    v       NoneÀ Á Â Ë Ù  Ãgî futharkThe pass from  ø to  Õ.ï futharkConvert some  ø	 stms to  Õ. îïîï    w       NoneÁ Ë Ð Ù  ÃÊñ futhark%The memory expansion pass definition. ññ    x       None.À Á Â Ã Ä Ë Ð Ù Û  ÄNø futharkThe pass for GPU kernels.ù futharkThe pass for multicore øùøù    y       None!Á Ó  Äx  ‚ƒ„…†‡ˆ‚…†‡ˆƒ„    z       Safe-InferredÀ Â Ë Ù  ÔÎ*‰ futhark8The reason why some expression cannot be converted to a  ‹
 value.Š futhark,The expression is not a (tuple-)SOAC at all.‹ futhark/A definite representation of a SOAC expression. futhark¦One array input to a SOAC - a SOAC may have multiple inputs, but
 all are of this form.  Only the array inputs are expressed with
 this type; other arguments, such as initial accumulator values, are
 plain expressions.  The transforms are done left-to-right, that is,
 the first element of the  ™ list is applied first.’ futhark0A view of the last transformation to be applied.• futhark1A view of the first transformation to be applied.˜ futhark:A sequence of array transformations, heavily inspired by
 Data.Seq.  You can decompose it using  ¡ and  ¢, and
 grow it by using  £ and  ¤œ.  These correspond closely to the
 similar operations for sequences, except that appending will try to
 normalise and simplify the transformation sequence.€The data type is opaque in order to enforce normalisation
 invariants.  Basically, when you grow the sequence, the
 implementation will try to coalesce neighboring permutations, for
 example by composing permutations and removing identity
 transformations.™ futharkÖ A single, simple transformation.  If you want several, don't just
 create a list, use  ˜	 instead.š futhark*A permutation of an otherwise valid input.› futhark(A reshaping of an otherwise valid input.œ futhark#A reshaping of the outer dimension. futhark2A reshaping of everything but the outer dimension.ž futhark2Replicate the rows of the array a number of times.Ÿ futharkThe empty transformation list.  futhark#Is it an empty transformation list?¡ futhark7Decompose the input-end of the transformation sequence.¢ futhark8Decompose the output-end of the transformation sequence.£ futhark6Add a transform to the end of the transformation list.¤ futhark<Add a transform at the beginning of the transformation list.¥ futhark«Given an expression, determine whether the expression represents
 an input transformation of an array variable.  If so, return the
 variable and the transformation.  Only  š and  ›#
 are possible to express this way.¦ futhark<Create a plain array variable input with no transformations.§ futharkÅ Create a plain array variable input with no transformations, from an  Œ.¨ futhark× If the given input is a plain variable input, with no transforms,
 return the variable.© futharkã If the given input is a plain variable input, with no non-vacuous transforms,
 return the variable.ª futhark;Add a transformation to the end of the transformation list.« futharkÅ Add several transformations to the start of the transformation
 list.¬ futhark#Return the array name of the input.­ futharkReturn the type of an input.® futhark:Return the row type of an input.  Just a convenient alias.¯ futharkÎ Return the array rank (dimensionality) of an input.  Just a
 convenient alias.° futhark4Apply the transformations to every row of the input.± futharkAdd to the input a  š transform that performs an (k,n)Û 
 transposition.  The new transform will be at the end of the current
 transformation list.² futhark"Returns the inputs used in a SOAC.³ futharkSet the inputs to a SOAC.´ futhark The lambda used in a given SOAC.µ futhark Set the lambda used in the SOAC.¶ futharkThe return type of a SOAC.· futharkõ The "width" of a SOAC is the expected outer size of its array
 inputs _after_ input-transforms have been carried out.¸ futhark/Convert a SOAC to the corresponding expression.¹ futhark'Convert a SOAC to a Futhark-level SOAC.º futhark‚Either convert an expression to the normalised SOAC
 representation, or a reason why the expression does not have the
 valid form.» futharkñ To-Stream translation of SOACs.
   Returns the Stream SOAC and the
   extra-accumulator body-result ident if any. 5ÈÉ‰Š‹ŒŽ‘’”“•—–˜™šž›œŸ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»5‹ŒŽÈÉ²³´µ¶·‰Šº¸¹‘¦§¨©ª«¬¯­®°±˜Ÿ £¤¡•—–¢’”“™šž›œ¥»    {       Safe-Inferred  Û}Ï futhark!fuseMaps lam1 inp1 out1 lam2 inp2 fuses the function lam1 into
 lam26.  Both functions must be mapping functions, although lam2*
 may have leading reduction parameters.  inp1 and inp2/ are the
 array inputs to the SOACs containing lam1 and lam2
 respectively.  out1Á  are the identifiers to which the output of
 the SOAC containing lam1Ð  is bound.  It is nonsensical to call
 this function unless the intersection of out1 and inp2 is
 non-empty.If lam25 accepts more parameters than there are elements in
 inp2Ó, it is assumed that the surplus (which are positioned at the
 beginning of the parameter list) are reduction (accumulator)
 parameters, that do not correspond to array elements, and they are
 thus not modified.õ The result is the fused function, and a list of the array inputs
 expected by the SOAC containing the fused function.Ï  futhark5The producer var names that still need to be returned futharkFunction of SOAC to be fused. futharkInput of SOAC to be fused. futharkºOutput of SOAC to be fused.  The
 first identifier is the name of the
 actual output, where the second output
 is an identifier that can be used to
 bind a single element of that output. futharkFunction to be fused with. futharkInput of SOAC to be fused with. futhark7The fused lambda and the inputs of
 the resulting SOAC.ÏÐÑÏÐÑ    |       Safe-InferredÁ Ë Ó Ù  Û¹  ÒÓÔÕÖ×ØÙÚÛÜÝÞßÔÕÖ×ØÙÒÓÚÛÜÝÞß    }       NoneÁ Ë Ð Ù  Þ“æ futhark/the SOAC expression, e.g., mapT( f(a,b), x, y )ç futharkÂVariables used in in-place updates in the kernel itself, as
 well as on the path to the kernel from the current position.
 This is used to avoid fusion that would violate in-place
 restrictions.è futhark-whether at least a fusion has been performed.é futharkÚThe set of variables that were consumed by the SOACs
 contributing to this kernel.  Note that, by the type rules, the
 final SOAC may actually consume _more_ than its original
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 This old value is stored in the first  Ê.  The second  Ê&
 is the memory block to update.  The  › is the new value.ô futhark.An operation that occurs within a kernel body.ÿ futharkø Perform a barrier and also check whether any
 threads have failed an assertion.  Make sure all
 threads would reach all  ÿÌ s if any of them
 do.  A failing assertion will jump to the next
 following  ÿ8, so make sure it's not inside
 control flow or similar.€ futharkÃ When we do a barrier or fence, is it at the local or global
 level?ƒ futhark§Information about a host-level variable that is used inside this
 kernel.  When generating the actual kernel code, this is used to
 deduce which parameters are needed.‡ futhark2A generic kernel containing arbitrary kernel code.Š futhark,The host variables referenced by the kernel. futharkÓ A short descriptive and _unique_ name - should be
 alphanumeric and without spaces.Ž futhark–If true, this kernel does not need to check
 whether we are in a failing state, as it can cope.
 Intuitively, it means that the kernel does not
 depend on any non-scalar parameters to make control
 flow decisions.  Replication, transpose, and copy
 kernels are examples of this. futhark)An operation that runs on the host (CPU).” futhark3An expression whose variables are kernel constants.• futhark'A run-time constant related to kernels.— futharkCode inside a kernel.˜ futhark&Host-level code that can call kernels.™ futharkA function that calls kernels.š futharkA program that calls kernels. ± nqrtsÍÚãâáàßÞÝÛÜäíìëêéèçåæîŽŒ‹‡†…„ƒ‚€ÿþýüûúùø÷öõôòðŠ‰óñˆï‘’“”•œ›š™˜–—¡ Ÿž¢£¤¥©¨¦§ª®¬­«¯°±²¶µ³´·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßô÷õöøù†ˆ‡Ÿ £¢¡¹¶	·	¸	¹	º	»	¼	½	¾	¿	À	Á	Â	Ã	Ä	Å	Æ	Ç	È	É	Ê	Ë	Ì	Í	ý	þ	ÿ	€
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•–—•–—˜™š›œžŸ ¡´°¯®©¨§¤²¬ª£¥¦«³­±µ¶·¸ºÁÀ¿¾¼½ÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãä    ‡       Safe-Inferred  ,‚¯ futharkÀ The types of the arguments accepted by a transposition function.° futhark1Which form of transposition to generate code for.´ futhark6For small arrays that do not
 benefit from coalescing.µ futharkó Generate a transpose kernel.  There is special support to handle
 input arrays with low width, low height, or both.Normally when transposing a [2][n] array we would use a FUT_BLOCK_DIM x
 FUT_BLOCK_DIM group to process a [2][FUT_BLOCK_DIM]­ slice of the input
 array. This would mean that many of the threads in a group would be inactive.
 We try to remedy this by using a special kernel that will process a larger
 part of the input, by using more complex indexing. In our example, we could
 use all threads in a group if we are processing (2/FUT_BLOCK_DIM)8 as large
 a slice of each rows per group. The variable mulxÍ  contains this factor for
 the kernel to handle input arrays with low height.*See issue #308 on GitHub for more details.«These kernels are optimized to ensure all global reads and writes
 are coalesced, and to avoid bank conflicts in shared memory.  Each
 thread group transposes a 2D tile of block_dim*2 by block_dim*2
 elements. The size of a thread group is block_dim/2 by
 block_dim*2, meaning that each thread will process 4 elements in a
 2D tile.  The shared memory array containing the 2D tile consists
 of block_dim*2 by block_dim*2+1 elements. Padding each row with
 an additional element prevents bank conflicts from occuring when
 the tile is accessed column-wise. ¯°±²³´µ°±²³´¯µ    ˆ       Trustworthy 0É¹ futhark2The C type corresponding to a signed integer type.º futharkÔ The C type corresponding to a primitive type.  Integers are
 assumed to be unsigned.» futharkà The C type corresponding to a primitive type.  Integers are
 assumed to have the specified sign.¼ futharktupleField i is the name of field number i in a tuple.½ futhark	funName fÆ  is the name of the C function corresponding to
 the Futhark function f.¾ futhark6The type of memory blocks in the default memory space.¿ futhark'The name of exposed array type structs.À futhark!The name of exposed opaque types.Á futharkä The type used to expose a Futhark value in the C API.  A pointer
 in the case of arrays and opaques.Â futharkì Return an expression multiplying together the given expressions.
 If an empty list is given, the expression 1 is returned.Ã futharkß Return an expression summing the given expressions.
 If an empty list is given, the expression 0 is returned. ¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌ¼½¾¹º»¿ÀÁÂÃÄÅÈÆÉÇÊËÌ    ‰       Trustworthy!À Â Ð Ó  1Ô futhark(Generate Futhark server executable code. ÔÔ    Š       Trustworthy!À Â Ð Ó  1ñÕ futhark,Generate Futhark standalone executable code. ÕÕ    ‹       Trustworthy!À Â Ð Ó  <àÖ futhark‡The result of compilation to C is multiple parts, which can be
 put together in various ways.  The obvious way is to concatenate
 all of them, which yields a CLI program.  Another is to compile the
 library part by itself, and use the header file to call into it.Ù futharkÈ Utility definitions that must be visible
 to both CLI and library parts.ê futhark<If true, use reference counting.  Otherwise, bare
 pointers.ë futhark"Code to bracket critical sections.ì futharkCall a function.í futhark&Copy from one memory block to another.î futhark;Create a static array of values - initialised at load time.ï futharkÛ De-allocate the given memory block with the given tag, which is
 in the given memory space.ð futharkŒAllocate a memory block of the given size and with the given tag
 in the given memory space, saving a reference in the given variable
 name.ñ futharkæ Read a scalar from the given memory block with the given element
 index and in the given memory space.ò futharkå Write a scalar to the given memory block with the given element
 index and in the given memory space.ó futhark5The type of a memory block in the given memory space.ô futharkØ The address space qualifiers for a pointer of the given type with
 the given annotation.ö futharkÎ A substitute expression compiler, tried before the main
 compilation function.÷ futhark‚In which part of the header file we put the declaration.  This is
 to ensure that the header file remains structured and readable.€ futharkñ A set of operations that fail for every operation involving
 non-default memory spaces.  Uses plain pointers and malloc for
 memory management.‡ futhark!Used when we, inside an existing  Ý­ action, want to
 generate code for a new function.  Use this so that the compiler
 understands that previously declared memory doesn't need to be
 freed inside this action.Œ futharkÎConstruct a publicly visible definition using the specified name
 as the template.  The first returned definition is put in the
 header file, and the second is the implementation.  Returns the public
 name. futharkAs  Œ, but ignores the public name.— futhark*Public names must have a consitent prefix.˜ futhark7The generated code must define a struct with this name.ž futhark(Produce header and implementation files.Ÿ futhark*As executable with command-line interface.  futharkAs server executable.¡ futharkþ Compile imperative program to a C program.  Always uses the
 function named "main" as entry point, so make sure it is defined.© futharkTell me how to compile a v, and I'll Compile any 	PrimExp v	 for you. Ù ¹ºÂÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôõö÷øùúûüýÿþ€‚ƒ„…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥¦§¨©ª«Ù ¡Ö×ØÙÚÛÜžŸ Þßàáâãäåæçèéêë€öõìôóò¥ñ¦ðïíîÝýÿþ„…‚ƒ‡¢«£ª¨©¤§œˆ‰”•–†ŽŒ’“÷øùúûü—˜‘™‹ŠšÂ›º¹    Œ       NoneÓ  >i  ·¸¸·           None >  ºº    Ž       None!Á  ?Â futharkÓ Called after most code has been generated to generate the bulk of
 the boilerplate. »¼½¾¿ÀÁÂÃÄÅÆÇÂÁ¼½¾¿ÀÇ»ÅÃÄÆ           None @È futhark;Block items to put before and after a thing to be profiled.É futharkÓ Called after most code has been generated to generate the bulk of
 the boilerplate. »¼½¾¿ÀÃÄÅÈÉÉÈ»¼½¾¿ÀÃÄÅ           Safe-Inferred  @p  Ø  nqrtsÍÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞßÊËÌÍÎÏÐÑÒÝÓÚÙØÕÖÞßáÛÔ×Üàâãäæåçèéêîìíëôðû÷øòñöóùõïúü3êîìíëôðû÷øòñöóùõïúüçèéäæåÒÝÓÚÙØÕÖÞßáÛÔ×ÜàâãÊËÐÑÎÏÌÍ    ‘       Safe-Inferred  C¢— futhark&Whether an option accepts an argument.› futharkò Specification if a single command line option.  The option must
 have a long name, and may also have a short name.Ü When the statement is being executed, the argument (if any) will be
 stored in the variable optarg.¡ futharkÚ Generate option parsing code that accepts the given command line options.  Will read from sys.argv.Ý If option parsing fails for any reason, the entire process will
 terminate with error code 1. —˜™š›œžŸ ¡›œžŸ —˜™š¡    ’       Trustworthy! D>¢ futharkPrelude embedded as  ï+ values, one for every file. ¢¢    “       Safe-Inferred4À Á Â Ã Ä ï ð  k±î £ futharkÌ The program described by a single Futhark file.  May depend on
 other files.§ futharkA top-level binding.¯ futharkA module parameter.µ futharkA module binding.½ futharkModule expression.À futhark)The contents of another file as a module.Â futhark«Functor application.  The first mapping is from parameter
 names to argument names, while the second maps names in the
 constructed module to the names inside the functor.Å futharkModule type binding.Ë futharkA type refinement.Í futharkA module type expression.Ó futhark'A spec is a component of a module type.Ö futharkAbstract type.Þ futharkA type parameter.ß futhark%A type parameter that must be a size.à futhark%A type parameter that must be a type.á futhark,The liftedness of a type parameter.  By the Ord instance,
 Unlifted < SizeLifted < Lifted.â futhark× May only be instantiated with a zero-order type of (possibly
 symbolically) known size.ã futharkÎ May only be instantiated with a zero-order type, but the size
 can be varying.ä futhark+May be instantiated with a functional type.å futharkType Declarationsí futharkFunction Declarationsï futharköJust if this function is an entry point.  If so, it also
 contains the externally visible interface.  Note that this may not
 strictly be well-typed after some desugaring operations, as it
 may refer to abstract types that are no longer in scope.ù futharkºInformation about the external interface exposed by an entry
 point.  The important thing is that that we remember the original
 source-language types, without desugaring them at all.  The
 annoying thing is that we do not require type annotations on entry
 points, so the types can be either ascribed or inferred.ý futharkå Part of the type of an entry point.  Has an actual type, and
 maybe also an ascribed type expression. futhark1Documentation strings, including source location.ƒ futharkÏ A pattern as used most places where variables are bound (function
 parameters, let expressions, etc).Œ futharkA literal in a pattern. futharkWhether the loop is a for-loop or a while-loop.” futharkA case in a match expression.– futharkAn entry in a record literal.™ futhark The Futhark expression language.±This allows us to encode whether or not the expression has been
 type-checked in the Haskell type of the expression.  Specifically,
 the parser will produce expressions of type Exp  Â  Ì.,
 and the type checker will convert these to Exp  ¿  ÊÈ , in
 which type information is always present and all names are unique.› futharkA polymorphic integral literal.œ futharkA polymorphic decimal literal. futhark?A string literal is just a fancy syntax for an array
 of bytes.Ÿ futharkA parenthesized expression.¡ futharkTuple literals, e.g., {1+3, {x, y+z}}.¢ futharkRecord literals, e.g. {x=2,y=3,z}.£ futharkArray literals, e.g., [ [1+x, 3], [2, 1+4] ]7.
 Second arg is the row type of the rows of the array.¤ futhark1An attribute applied to the following expression.¦ futhark;Numeric negation (ugly special case; Haskell did it first).§ futharkî Fail if the first expression does not return true,
 and return the value of the second expression if it
 does.¨ futharkAn n-ary value constructor.¬ futhark+0; first two types are operands, third is result.­ futhark2+*; first type is operand, second is result.® futhark+2*; first type is operand, second is result.¯ futharkField projection as a section: (.x.y.z).° futharkArray indexing as a section: (.[i,j]).± futharkType ascription: e : t.³ futharkÝAn annotation inserted by the type checker on constructs that are
 "function calls" (either literally or conceptually).  This
 annotation encodes the result type, as well as any existential
 sizes that are generated here.· futharkáAn "application expression" is a semantic (not syntactic)
 grouping of expressions that have "funcall-like" semantics, mostly
 meaning that they can return existential sizes.  In our type
 theory, these are all thought to be bound to names (*Administrative
 Normal Form*), but as this is not practical in a real language, we
 instead use an annotation ( ³õ ) that stores the information we
 need, so we can pretend that an application expression was really
 bound to a name.¸ futharkThe Maybe VNameÈ  is a possible existential size
 that is instantiated by this argument..¹ futharkSize coercion: e :> t.Â futharkA match expression.Ã futharkÅ A binding of a size in a pattern (essentially a size parameter in
 a let expression).Ç futhark6A name qualified with a breadcrumb of module accesses.Ë futhark"An indexing of a single dimension.Î futhark&Whether a bound for an end-point of a  Í/ or a range
 literal is inclusive or exclusive.Ð futhark%May be "down to" if step is negative.Ò futharkDefault binary operators.Ó futhark†A pseudo-operator standing in for any normal
 identifier used as an operator (they all have the
 same fixity).
 Binary Ops for Numbersé futhark|>ê futhark<|
 Miscë futharkÖ An identifier consists of its name and the type of the value
 bound to the identifier.ð futharkÙ Simple Futhark values.  Values are fully evaluated and their type
 is always unambiguous.ò futharkÇ It is assumed that the array is 0-indexed.  The type
 is the full type.ó futhark;Information about which parts of a value/type are consumed.ô futhark$Consumes these fields in the record.õ futhark?A function that consumes its argument(s) like this.
 The final  ó should always be  ÷Á , as there
 is no way for a function to consume its return value.ö futharkConsumes this value.÷ futhark8Only observes value in this position, does
 not consume.ø futhark'A declaration of the type of something.ú futharkThe type declared by the user.û futhark%The type deduced by the type checker.ü futhark8A type argument expression passed to a type constructor.ÿ futharkœAn unstructured type with type variables and possibly shape
 declarations - this is what the user types in the source program.
 These are used to construct  —s in the type checker.ˆ futhark0A dimension declaration expression for use in a  ÿ.‰ futharkÀ The size of the dimension is this name, which
 must be in scope.Š futharkThe size is a constant.‹ futharkNo dimension declaration.Œ futhark6A value type contains full, manifest size information. futharkß A "structural" type with shape annotations and no aliasing
 information, used for declarations.Ž futharkï A type with aliasing information and shape annotations, used for
 describing the type patterns and expressions. futharkÇ Aliasing for a type, which is a set of the variables that are
 aliased. futharkâA variable that is aliased.  Can be still in-scope, or have gone
 out of scope and be free.  In the latter case, it behaves more like
 an equivalence class.  See uniqueness-error18.fut for an example of
 why this is necessary.” futhark)An argument passed to a type constructor.— futhark An expanded Futhark type is either an array, or something that
 can be an element of an array.  When comparing types for equality,
 function parameter names are ignored.  This representation permits
 some malformed types (arrays of functions), but importantly rules
 out arrays-of-arrays.š futharkÆTypes that can be elements of arrays.  This representation does
 allow arrays of records of functions, which is nonsensical, but it
 convolutes the code too much if we try to statically rule it out.Ÿ futharkÁ The aliasing corresponds to the lexical
 closure of the function.  futhark0The name (if any) of a function parameter.  The  ”, and  “,5
 instances always compare values of this type equal.£ futhark?A type name consists of qualifiers (for error messages) and a
  Ê (for equality checking).§ futharkÁ The size of an array type is a list of its dimension sizes.  If
  æ+3, that dimension is of a (statically) unknown size.ª futhark Declaration of a dimension size.« futharkù The size of the dimension is this name, which
 must be in scope.  In a return type, this will
 give rise to an assertion.¬ futharkThe size is a constant.­ futharkÒ No known size - but still possibly given a unique name, so we
 can recognise e.g. type square [n] = [n][n]i32 and make
 	square [] do the right thing.  If Nothing/, then this is a
 name distinct from any other.® futhark5A type class for things that can be array dimensions.¯ futharkunifyDims x y
 combines x and yÊ  to contain their maximum
 common information, and fails if they conflict.° futharkThe payload of an attribute.³ futharkÌ A class for converting ordinary Haskell values to primitive
 Futhark values.µ futharkNon-array values.º futharkLow-level primitive types.¿ futharkSome information.  The dual to  ÂÂ futharkÕ No information functor.  Usually used for placeholder type- or
 aliasing information.Ä futharkConvenience class for deriving  ª, instances for the AST.Å futhark.The number of dimensions contained in a shape.Æ futharkstripDims n shape strips the outer n dimensions from
 shape, returning  æ+3 if this would result in zero or
 fewer dimensions.Ç futharkunifyShapes x y
 combines x and yÊ  to contain their maximum
 common information, and fails if they conflict.È futhark
Convert a  Ç to a  £.É futhark
Convert a  £ to a  Ç.Ê futharkThe name of a type parameter. Ý nqrtsÍ¢£¤¥¦§¨©¯°±²³´µ¶ÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞß£¤¥¦§¨©ª«¬­®¯°±²³´µ¶·¸¹º»¼½¾¿ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÖÔÕ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôõö÷øùúûüýþÿ€‚ƒ‡„…†ˆ‰Š‹ŒŽ“‘’”•–—˜™¨ž«š¦¤²£§©›œŸ ¡¢¥ª¬­®¯°±³´µ¶·ÂÁ½¿¸º¾¹»¼ÀÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÙÕßÔåçÖáâÓ×ØÚÛÜÝÞàãäæèéêëìíîïðñòóö÷ôõøùúûüýþÿ€‚ƒ„…†‡ˆ‰Š‹ŒŽ‘’“”•–—™˜šžŸ›œ ¡¢£¤¥¦§¨©ª«¬­®¯°±²³´µ¸¹¶·º¾»¼½¿ÀÁÂÃÄÅÆÇÈÉÊ»ÐÒÑ²³´µ¶¯°±º¾»¼½®¯ª«¬­§¨©ÅÆÇ£¤¥¦ÈÉ—™˜”•–ˆ‰Š‹ÿ€‚ƒ„…†‡üýþ ¡¢šžŸ›œŽŒóö÷ôõøùúû¥¦§¨©¢£¤µ¸¹¶·³´ðñò°±²ÒÙÕßÔåçÖáâÓ×ØÚÛÜÝÞàãäæèéêëìíîïÎÏÐÑËÌÍÃÄÅÆ·ÂÁ½¿¸º¾¹»¼À³´µ¶™¨ž«š¦¤²£§©›œŸ ¡¢¥ª¬­®¯°±–—˜”•“‘’ŒŽƒ‡„…†ˆ‰Š‹ÓÖÔÕ×ØÙÚÛÜÝÍÎÏÐÑÒËÌÅÆÇÈÉÊ½¾¿ÀÁÂÃÄµ¶·¸¹º»¼¯°±²³´‚íîïðñòóôõö÷øùúûüýþÿ€áâãäåæçèéêëìÞßàÊ£¤¥¦§¨©ª«¬­®ÄÂÃ¿ÀÁ‘’“ÇÈÉÊ    ”       Safe-Inferred!À Á Â Û  ŒÒ “! futhark8A case (of a match expression) with no type annotations.”! futhark+A Futhark program with no type annotations.•! futhark A spec with no type annotations.–! futhark'A declaration with no type annotations.—! futhark0A function declaration with no type annotations.˜! futhark#A pattern with no type annotations.™! futhark*A type parameter with no type annotations.š! futhark2A module type expression with no type annotations.›! futhark-A module expression with no type annotations.œ! futhark'An expression with no type annotations.! futhark"An index with no type annotations.ž! futhark'An identifier with no type annotations.Ÿ! futhark)A type declaration with no expanded type. ! futhark'An expression with no type annotations.¡! futhark:A type with no aliasing information but shape annotations.¢! futhark×The nature of something predefined.  For functions, these can
 either be monomorphic or overloaded.  An overloaded builtin is a
 list valid types it can be instantiated with, to the parameter and
 result type, with  æ+- representing the overloaded parameter
 type.¨! futhark Where does this dimension occur?©! futharkImmediately in the argument to  ±!.ª! futharkIn a function parameter type.«! futharkIn a function return type.¬! futharkœReturn the dimensionality of a type.  For non-arrays, this is
 zero.  For a one-dimensional array it is one, for a two-dimensional
 it is two, and so forth.­! futhark5Return the shape of a type - for non-arrays, this is  ™,.®! futharkÄ Return any shape declarations in the type, with duplicates
 removed.¯! futhark/Change the shape of a type to be just the rank.°! futhark"Change all size annotations to be  ­.±! futhark¥Perform a traversal (possibly including replacement) on sizes
 that are parameters in a function type, but also including the type
 immediately passed to the function.  Also passes along a set of the
 parameter names inside the type that have come in scope at the
 occurrence of the dimension.²! futhark›Figure out which of the sizes in a parameter type must be passed
 explicitly, because their first use is as something else than just
 an array dimension.   ³!Ã  is like this function, but
 first decomposes into parameter types.³! futhark—Figure out which of the sizes in a binding type must be passed
 explicitly, because their first use is as something else than just
 an array dimension.´! futhark Return the uniqueness of a type.µ! futharkunique t is  š,' if the type of the argument is unique.¶! futharkÅ Return the set of all variables mentioned in the aliasing of a
 type.·! futharkdiet t< returns a description of how a function parameter of
 type t might consume its argument.¸! futharkà Convert any type to one that has rank information, no alias
 information, and no embedded names.¹! futhark(Remove aliasing information from a type.º! futhark,Replace no aliasing with an empty alias set.»! futharkpeelArray n t4 returns the type resulting from peeling the first
 n array dimensions from t.  Returns Nothing if t has less
 than n dimensions.¼! futharkarrayOf t s uÃ  constructs an array type.  The convenience
 compared to using the  ™ constructor directly is that t can
 itself be an array.  If t is an n-dimensional array, and s is
 a list of length n, the resulting type is of an n+m6 dimensions.
 The uniqueness of the new array will be u, no matter the
 uniqueness of t.½! futharkstripArray n t removes the nÚ  outermost layers of the array.
 Essentially, it is the type of indexing an array of type t with
 n	 indexes.¾! futharkÌ Create a record type corresponding to a tuple with the given
 element types.¿! futharkÐ Does this type corespond to a tuple?  If so, return the elements
 of that tuple.À! futhark+Does this record map correspond to a tuple?Á! futhark0Construct a record map corresponding to a tuple.Â! futhark1Increasing field names for a tuple (starts at 0).Ã! futharkSort fields by their name; taking care to sort numeric fields by
 their numeric value.  This ensures that tuples and tuple-like
 records match.Ä! futharká Sort the constructors of a sum type in some well-defined (but not
 otherwise significant) manner.Å! futhark
Is this a  à?Æ! futhark
Is this a  ß?Ç! futhark§Combine the shape information of types as much as possible. The first
 argument is the orignal type and the second is the type of the transformed
 expression. This is necessary since the original type may contain additional
 information (e.g., shape restrictions) from the user given annotation.È! futhark6Match the dimensions of otherwise assumed-equal types.É! futharkSet the uniqueness attribute of a type.  If the type is a record
 or sum type, the uniqueness of its components will be modified.Ê! futharkt `setAliases` als	 returns t, but with als/ substituted for
 any already present aliasing.Ë! futharkt `addAliases` f	 returns t5, but with any already present
 aliasing replaced by f applied to that aliasing.Ì! futharkThe type of a basic value.Í! futharkThe type of the value.Î! futhark*The size of values of this type, in bytes.Ï! futharkì The type of an Futhark term.  The aliasing will refer to itself, if
 the term is a non-tuple-typed variable.Ð! futharkfoldFunType ts ret creates a function type ( Ÿ) that takes
 ts as parameters and returns ret.Ñ! futharkExtract the parameter types and return type from a type.
 If the type is not an arrow type, the list of parameter types is empty.Ò! futharkØ The type scheme of a value binding, comprising the type
 parameters and the actual type.Ó! futharkÁ The type of a function with the given parameters and return type.Ô! futhark#The type names mentioned in a type.Õ! futharkorderZero t is  š,« if the argument type has order 0, i.e., it is not
 a function type, does not contain a function type as a subcomponent, and may
 not be instantiated with a function type.Ö! futhark:Extract all the shape names that occur in a given pattern.×! futhark7Extract all the shape names that occur in a given type.Ø! futharkpatternOrderZero pat is  š,8 if all of the types in the given pattern
 have order 0.Ù! futhark*The set of identifiers bound in a pattern.Ú! futhark$The set of names bound in a pattern.Û! futhark8A mapping from names bound in a map to their identifier.Ü! futhark(The type of values bound by the pattern.Ý! futharkÉ The type matched by the pattern, including shape declarations if present.Þ! futharkå When viewed as a function parameter, does this pattern correspond
 to a named parameter of some type?ß! futharkê Names of primitive types to types.  This is only valid if no
 shadowing is going on, but useful for tools.à! futharkA map of all built-ins.á! futharkÐ The largest tag used by an intrinsic - this can be used to
 determine whether a  Ê/ refers to an intrinsic or a user-defined name.â! futhark-Create a name with no qualifiers from a name.ã! futhark8Add another qualifier (at the head) to a qualified name.ä! futhark2Create a type name name with no qualifiers from a  Ê.å! futhark*The modules imported by a Futhark program.æ! futhark-The modules imported by a single declaration.ç! futharkÆ The set of module types used in any exported (non-local)
 declaration.è! futharkExtract a leading $((name, namespace, file), remainder)– from a
 documentation comment string.  These are formatted as
 `name`@namespace[@file].  Let us hope that this pattern does not occur
 anywhere else.é! futharkØ Given an operator name, return the operator that determines its
 syntactical properties. Ú ÚÂÃ“!”!•!–!—!˜!™!š!›!œ!!ž!Ÿ! !¡!¢!£!¤!¥!¦!§!¨!©!ª!«!¬!­!®!¯!°!±!²!³!´!µ!¶!·!¸!¹!º!»!¼!½!¾!¿!À!Á!Â!Ã!Ä!Å!Æ!Ç!È!É!Ê!Ë!Ì!Í!Î!Ï!Ð!Ñ!Ò!Ó!Ô!Õ!Ö!×!Ø!Ù!Ú!Û!Ü!Ý!Þ!ß!à!á!â!ã!ä!å!æ!ç!è!é!Ú ¢!£!¤!¥!¦!§!à!á!ß!â!ã!ä!Í!Ì!é!å!æ!ç!è!ÚÏ!Ò!Ó!Ù!Ú!Û!Ü!Ý!Þ!Ø!Ö!´!µ!¶!·!¬!­!®!Õ!Ñ!Ð!Ô!×!Î!»!½!¼!¸!¹!º!Ê!Ë!É!¯!°!±!¨!©!ª!«!³!²!¾!¿!À!Á!Â!Ã!Ä!Å!Æ!Ç!È!ÂÃ¡! !ž!Ÿ!!œ!›!š!™!˜!—!–!•!”!“!    •       Safe-InferredÀ Á Â  •Ãí! futhark’Class for type constructors that represent annotations.  Used in
 the prettyprinter to either print the original AST, or the computed
 decoration.î! futharkExtract value, if any.ï! futharkë A class for types that are variable names in the Futhark source
 language.  This is used instead of a mere  ,„ instance because
 in the compiler frontend we want to print VNames differently
 depending on whether the FUTHARK_COMPILER_DEBUGGING environment
 variable is set, yet in the backend we want to always print VNames
 with the tag.  To avoid erroneously using the  ,ó  instance for
 VNames, we in fact only define it inside the modules for the core
 language (as an orphan instance).ñ! futharkPrettyprint a name to a string.‡" futhark–Depending on the environment variable FUTHARK_COMPILER_DEBUGGING,
 VNames are printed as either the name with an internal tag, or just
 the base name. ÍÒé!í!î!ï!ð!ñ!ÍÒé!ï!ð!ñ!í!î!    ì       Trustworthy !É  —bœ" futhark‘A lexical token.  It does not itself contain position
 information, so in practice the parser will consume tokens tagged
 with a source position.ë" futhark&A value tagged with a source location.í" futharkï Given a starting position, produce tokens from the given text (or
 a lexer error).  Returns the final position. Ó œ"â"×"ê""Ü"Ý"Ò"Ó"Ô"Õ"Ö"ä"Ø"Ù"Ú"æ"å"ß"à"á"ã"Þ"Û"ç"è"Ì"Í"Î"Ï"Ñ"£"ž"Ÿ" "¡"¢"¤"¥"¦"§"¨"©"ª"«"¬"­"®"¯"°"±"²"³"´"µ"¶"·"¸"¹"º"»"¼"½"¾"¿"À"Á"Â"Ã"Ä"Å"Æ"Ç"È"É"Ê"Ë"Ð"é"ë"ì"í"î,     í       Trustworthy !À Â É Ó ë  ™î" futharkA parse error.  Use  ï,% to get a human-readable description.ð" futharkè Parse either an expression or a declaration incrementally;
 favouring declarations in case of ambiguity. î"ï"ð,ñ,ò,ó,ô,õ,ö,÷,ð"  ø,9	ù,9	  –       Safe-Inferred  œ_ñ" futhark/Parse an entire Futhark program from the given  ï+, using
 the  ç+' as the source name for error messages.ò" futhark+Parse an Futhark expression from the given  å+, using the
  ç+' as the source name for error messages.ó" futhark1Parse a Futhark module expression from the given  å+, using the
  ç+' as the source name for error messages.ô" futhark%Parse an Futhark type from the given  å+, using the
  ç+' as the source name for error messages.õ" futhark'Parse any Futhark value from the given  å+, using the  ç+(
 as the source name for error messages.ö" futharkÅ Parse several Futhark values (separated by anything) from the given
  å+, using the  ç+( as the source name for error
 messages. Û œ"â"×"ê""Ü"Ý"Ò"Ó"Ô"Õ"Ö"ä"Ø"Ù"Ú"æ"å"ß"à"á"ã"Þ"Û"ç"è"Ì"Í"Î"Ï"Ñ"£"ž"Ÿ" "¡"¢"¤"¥"¦"§"¨"©"ª"«"¬"­"®"¯"°"±"²"³"´"µ"¶"·"¸"¹"º"»"¼"½"¾"¿"À"Á"Â"Ã"Ä"Å"Æ"Ç"È"É"Ê"Ë"Ð"é"ë"ì"í"î"ï"ð"ñ"ò"ó"ô"õ"ö"Û ñ"ò"ó"ô"õ"ö"ð"î"ï"í"ë"ì"œ"â"×"ê""Ü"Ý"Ò"Ó"Ô"Õ"Ö"ä"Ø"Ù"Ú"æ"å"ß"à"á"ã"Þ"Û"ç"è"Ì"Í"Î"Ï"Ñ"£"ž"Ÿ" "¡"¢"¤"¥"¦"§"¨"©"ª"«"¬"­"®"¯"°"±"²"³"´"µ"¶"·"¸"¹"º"»"¼"½"¾"¿"À"Á"Â"Ã"Ä"Å"Æ"Ç"È"É"Ê"Ë"Ð"é"    —       Safe-Inferred  ¢	÷" futhark,A type-checked case (of a match expression).ø" futhark.A known scalar type with no shape annotations.ù" futharkA type-checked type parameter.ú" futhark(A known type arg with shape annotations.û" futhark)An Futhark program with type information.ü" futharkA type-checked specification.ý" futharkA type-checked declaration.þ" futhark&A type-checked module type expression.ÿ" futhark A type-checked module parameter.€# futhark!A type-checked module expression.# futhark#A type-checked module type binding.‚# futharkA type-checked module binding.ƒ# futhark%A type binding with type information.„# futhark(A type declaration with type information…# futhark.An constant declaration with type information.†# futhark A pattern with type information.‡# futhark0An application expression with type information.ˆ# futhark$An expression with type information.‰# futharkAn index with type information.Š# futhark2An identifier with type- and aliasing information. Î nqrtsÍÒ¢£¤¥©¨¦§¯°±²¶µ³´ÊËÌÍÎÏÐÒÑÓÔÕÖ×ØÙÚÛÜÝÞß£¤¥¦§®­¬«ª¨©¯°´³±²µ¶¼»º¹·¸½ÄÃÂÁÀ¾¿ÅÆÊÉÇÈËÌÍÒÑÐÎÏÓØ×ÕÖÔÝÜÛÙÚÞßàáäâãåæìëêéçèíîø÷öõôóòñïðùúûüýþÿ€‚ƒ‹Š‰ˆ†…‡„ŒŽ’“‘”•–—˜™±°¯®­¬ª¥¢¡ Ÿœ›©§£²¤¦š«¨ž³´µ¶·À¼»¹¾º¸¿½ÂÁÃÄÅÆÇÈÉÊËÌÍÎÑÏÐÒêéèæäãàÞÝÜÛÚØ×ÓâáÖçåÔßÙÕëìïíîðñòóõôö÷øùúûüýþÿ‡†…„ƒ‚€ˆ‹‰ŠŒŽ‘’“”•–—™˜šœ›žŸ ¡¢£¤¥¦§¨©ª­«¬®¯°±²³´µ·¶¸¹º½¼¾»¿ÀÁÂÃÄÅÆÇÈÉÊ“!”!•!–!—!˜!™!š!›!œ!!ž!Ÿ! !¡!¢!§!¦!¥!£!¤!¨!«!©!ª!¬!­!®!¯!°!±!²!³!´!µ!¶!·!¸!¹!º!»!¼!½!¾!¿!À!Á!Â!Ã!Ä!Å!Æ!Ç!È!É!Ê!Ë!Ì!Í!Î!Ï!Ð!Ñ!Ò!Ó!Ô!Õ!Ö!×!Ø!Ù!Ú!Û!Ü!Ý!Þ!ß!à!á!â!ã!ä!å!æ!ç!è!é!í!î!ï!ð!ñ!÷"ø"ù"ú"û"ü"ý"þ"ÿ"€##‚#ƒ#„#…#†#‡#ˆ#‰#Š#Š#‰#‡#ˆ#†#€#ÿ"þ"‚##…#ý"ü"û"ƒ#„#ú"ø"ù"÷"    ˜       Safe-Inferred  ¬Ø‹# futhark6Modules produces environment with this representation.’# futhark× A mapping from names (which always exist in some namespace) to a
 unique (tagged) name.“# futharkÎType parameters, list of parameter types (optinally named), and
 return type.  The type parameters are in scope in both parameter
 types and the return type.  Non-functional values have only a
 return type.•# futhark2A binding from a name to its definition as a type.—# futhark Representation of a module type.™# futhark"Abstract types in the module type.›# futharkû A parametric functor consists of a set of abstract types, the
 environment of its parameter, and the resulting module type. # futharkì Representation of a module, which is either a plain environment,
 or a parametric module ("functor" in SML).£# futhark0A mapping of abstract types to their liftedness.¤# futharkThe space inhabited by a name.¥# futharkFunctions and values.¨# futharkÅ A mapping from import names to imports.  The ordering is significant.©# futharkâ The result of type checking some file.  Can be passed to further
 invocations of the type checker.«# futharkAbstract types.®# futharkÃ Canonical reference to a Futhark code file.  Does not include the
 .futâ  extension.  This is most often a path relative to the
 current working directory of the compiler.¯# futharkÊ Create an import name immediately from a file path specified by
 the user.°# futharkWe resolve '..'õ  paths here and assume that no shenanigans are
 going on with symbolic links.  If there is, too bad.  Don't do
 that.±# futhark	Create a .fut file corresponding to an  ®#.²# futhark7Produce a human-readable canonicalized string from an
  ®#. (‹#Œ#‘##Ž###’#“#”#•#–#—#˜#™#š#›#œ##ž#Ÿ# #¡#¢#£#¤#¦#¥#§#¨#©#ª#­#«#¬#®#¯#°#±#²#(®#¯#°#±#²#©#ª#­#«#¬#¨#¤#¦#¥#§#‹#Œ#‘##Ž###£#›#œ##ž#Ÿ#’#“#”# #¡#¢#•#–#—#˜#™#š#    ™       None!789Ð  ±È# futharkœThe interpreter context.  All evaluation takes place with respect
 to a context, and it can be extended with more definitions, which
 is how the REPL works.Ì# futhark‘An error occurred during interpretation due to an error in the
 user program.  Actual interpreter errors will be signaled with an
 IO exception ( œ,).Í# futhark'The actual type- and value environment.Î# futhark A fully evaluated Futhark value.Ö# futhark(What is the reason for this break point?×# futhark&An explicit breakpoint in the program.Ø# futharkAÝ# futhark,Does the value correspond to an empty array?Þ# futhark¤String representation of an empty array with the provided element
 type.  This is pretty ad-hoc - don't expect good results unless the
 element type is a primitive.á# futharkÐ The initial environment contains definitions of the various intrinsic functions.å# futharkÝ Execute the named function on the given arguments; may fail
 horribly if these are ill-typed. È#É#Ê#Ë#Ì#Í#Î#Ï#Ð#Ñ#Ò#Ó#Ô#Õ#Ö#×#Ø#Ù#Ú#Û#Ü#Ý#Þ#ß#à#á#â#ã#ä#å#È#É#Ê#Ë#Í#Ì#á#â#ã#ä#å#Ò#Ó#Ô#Õ#Ö#×#Ø#Ù#Ú#Û#Ü#à#Î#Ï#Ð#Ñ#ß#Ý#Þ#    š       TrustworthyÁ Ð  ³•þ# futharkAs  ü#>, but returns components of a top-level
 tuple type piecemeal.$ futharkã How many core language values are needed to represent one source
 language value of the given type?‚$ futhark7Convert an external primitive to an internal primitive.ƒ$ futharkÃ Convert an external primitive value to an internal primitive value. 
ú#û#ü#ý#þ#ÿ#€$$‚$ƒ$
ü#ý#þ#ÿ#ú#û#‚$$€$ƒ$    ›       Safe-InferredÁ  ´ˆ$ futhark%A function for internalising lambdas. ˆ$‰$Š$‹$Œ$$ˆ$‰$Š$‹$Œ$$    œ       Safe-Inferred  µšŽ$ futhark.A set of names where we also track uniqueness.‘$ futharkSet subtraction.’$ futharkIs this name in the  Ž$?“$ futharkA  Ž$ with a single  Ñ name.–$ futhark3Compute the set of free variables of an expression.—$ futhark2Extract all the variable names bound in a pattern. 
Ž$$$‘$’$“$”$•$–$—$
–$‘$’$“$”$•$Ž$$$—$           Safe-InferredÁ  µë  ›$œ$$ž$›$œ$$ž$    ž       Trustworthy!À Â ï ð  ½SŸ$ futhark4A class for Haskell values that can be converted to  «$?.
 This is a convenience facility - don't expect it to be fast. $ futhark1This may fail for cases such as irregular arrays.¡$ futhark6A class for Haskell values that can be retrieved from  «$?.
 This is a convenience facility - don't expect it to be fast.£$ futhark$Two values differ in some way.  The  ª,1 instance produces a
 human-readable explanation.¤$ futharkÂ A representation of the simple values we represent in this module.¦$ futharkLike a  «$¤, but also grouped in compound ways that are not
 supported by raw values.  You cannot parse or read these in
 standard ways, and they cannot be elements of arrays.§$ futharkì The structure of a compound value, parameterised over the actual
 values.  For most cases you probably want  ¦$.©$ futharkMust not be single value.«$ futhark/An efficiently represented Futhark value.  Use  Í. to get a
 human-readable representation, and  ú,$ to obtain binary a
 representation.·$ futharkThe value vector type.¸$ futhark4Create a tuple for a non-unit list, and otherwise a  ª$¹$ futhark÷ Prettyprint a value type with empty dimensions.  This is needed
 for Futhark server programs, whose types are un-sized.º$ futharkGet the type of a value.»$ futhark6The shape of a value.  Empty list in case of a scalar.¼$ futharkôProduce a list of the immediate elements of the value.  That is,
 a 2D array will produce a list of 1D values.  While lists are of
 course inefficient, the actual values are just slices of the
 original value, which makes them fairly efficient.½$ futhark/Parse Futhark values from the given bytestring.¾$ futharkÔ Compare two sets of Futhark values for equality.  Shapes and
 types must also match.  Ÿ$ $¡$¢$£$¤$¥$¦$§$¨$©$ª$«$¬$­$®$¯$´$µ$¶$°$±$²$³$·$¸$¹$º$»$¼$½$¾$ «$¬$­$®$¯$´$µ$¶$°$±$²$³$§$¨$©$ª$¦$·$½$¤$¥$¹$º$»$¼$¸$¾$£$¡$¢$Ÿ$ $    Ÿ       None! ¿ÀÝ$ futharký Parse the name of a primitive type.  Does *not* consume any
 trailing whitespace, nor does it permit any internal whitespace.Þ$ futharkò Parse a primitive value.  Does *not* consume any trailing
 whitespace, nor does it permit any internal whitespace.ß$ futharkç Parse a type.  Does *not* consume any trailing whitespace, nor
 does it permit any internal whitespace.à$ futhark9Parse a value, given a post-lexeme parser for whitespace. Ý$Þ$ß$à$Ý$ß$Þ$à$            None!Á Û  ÇÆá$ futhark#How to evaluate a builtin function.â$ futharkã The intermediate values produced by an expression - in
 particular, these may not be on the server.ã$ futharkThe type of a  æ$* - either a value type or a function type.å$ futharkIns, then outs.æ$ futhark¡A ScriptValue is either a base value or a partially applied
 function.  We don't have real first-class functions in
 FutharkScript, but we sort of have closures.è$ futharkÌ Ins, then outs.  Yes, this is the opposite of more or less
 everywhere else.é$ futharkÝA FutharkScript expression.  This is a simple AST that might not
 correspond exactly to what the user wrote (e.g. no parentheses or
 source locations).  This is fine for small expressions, which is
 all this is meant for.ï$ futharkÄ Server-side variable, *not* Futhark variable (these are
 handled in  ê$).ð$ futharkA function called in a  ê$Ä  expression can be either a Futhark
 function or a builtin function.ó$ futharkLike a  õÄ , but keeps a bit more state to make FutharkScript
 more convenient.ô$ futharkÊ Start a server, execute an action, then shut down the server.
 Similar to  ö.õ$ futhark!Parse a FutharkScript expression.ö$ futharkThe type of a  æ$.÷$ futhark0Convert a value into a corresponding expression.ø$ futharkÄ Evaluate a FutharkScript expression relative to some running server.ù$ futharké Read actual values from the server.  Fails for values that have
 no well-defined external representation.ú$ futharkLike  ø$§, but requires all values to be non-functional.  If
 the value has a bad type, return that type instead.  Other
 evaluation problems (e.g. type failures) raise errors.û$ futharkThe set of Futhark variables that are referenced by the
 expression - these will have to be entry points in the Futhark
 program.ü$ futharkè Release all the server-side variables in the value.  Yes,
 FutharkScript has manual memory management... á$â$ã$ä$å$æ$ç$è$é$ë$ì$î$ê$í$ï$ð$ñ$ò$ó$ô$õ$ö$÷$ø$ù$ú$û$ü$ó$ô$ð$ñ$ò$é$ë$ì$î$ê$í$ï$õ$û$ã$ä$å$æ$ç$è$ö$â$á$ø$ù$ú$÷$ü$    ¡       None!Á Ó  Ø"ˆ% futharkThe futhark² executable we are using.  This is merely a wrapper
 around the underlying file path, because we will be using a lot of
 different file paths here, and it is easy to mix them up.Š% futhark/The result expected from a succesful execution.‹% futharkThese values are expected.Œ% futharkÎ Compute expected values from executing a known-good
 reference implementation.% futhark)How a test case is expected to terminate.Ž% futhark;Execution suceeds, with or without
 expected result values.% futhark Execution fails with this error.% futharkÜ Several Values - either literally, or by reference to a file, or
 to be generated on demand.”% futhark6A condition for execution, input, and expected result.›% futhark€A warning test requires that a warning matching the regular
 expression is produced.  The program must also compile succesfully.% futharkð A structure test specifies a compilation pipeline, as well as
 metrics for the program coming out the other end.Ÿ% futhark!How a program can be transformed.¥% futhark'The error expected for a negative test.¨% futhark/Input and output pairs for some entry point(s).¬% futharkHow to test a program.¯% futharkè Description of a test to be carried out on a Futhark program.
 The Futhark program is stored separately.´% futhark;Read the test specification from the given Futhark program.µ% futharkLike  ´%!, but kills the process on error.¶% futharkß Read test specifications from the given paths, which can be a
 files or directories containing .fut  files and further
 directories.·% futharkLike  ¶%", but kills the process on errors.¸% futhark7Try to parse a several values from a byte string.  The  å+'
 parameter is used for error messages.¹% futhark6Get the actual core Futhark values corresponding to a  %
 specification.  The first  ç+ is the path of the futharkÕ 
 executable, and the second is the directory which file paths are
 read relative to.º% futhark(Extract a pretty representation of some  %“.  In the IO
 monad because this might involve reading from a file.  There is no
 guarantee that the resulting byte string yields a readable value.»% futhark—Evaluate an IO action while the values are available in the
 binary format in a file by some name.  The file will be removed
 after the action is done.¼% futhark:Check that the file contains values of the expected types.½% futharkñ When/if generating a reference output file for this run, what
 should it be called?  Includes the "data/" folder.¾% futhark;Get the values corresponding to an expected result, if any.¿% futhark&The name we use for compiled programs.À% futhark4compileProgram extra_options futhark backend program compiles
 program with the command  futhark backend extra-options...ò , and
 returns stdout and stderr of the compiler.  Throws an IO exception
 containing stderr if compilation fails.Á% futhark8runProgram futhark runner extra_options prog entry input runs the
 Futhark program prog (which must have the .fut suffix),
 executing the entry entry point and providing inputÁ  on stdin.
 The program must have been compiled in advance with
  À%.  If runnerÏ  is non-null, then it is used as
 "interpreter" for the compiled program (e.g. python( when using
 the Python backends).  The extra_options are passed to the
 program.Â% futhark/Read the given variables from a running server.Ã% futharkŸEnsure that any reference output files exist, or create them (by
 compiling the program with the reference compiler and running it on
 the input) if necessary.Ä% futharkô Determine the --tuning options to pass to the program.  The first
 argument is the extension of the tuning file, or  æ+ if none
 should be used.Å% futharkÑ Check that the result is as expected, and write files and throw
 an error if not. Á £$«$¾$ˆ%‰%Š%‹%Œ%%Ž%%%‘%’%“%”%•%–%—%˜%™%š%›%œ%%ž%Ÿ% %¡%¢%£%¤%¥%¦%§%¨%©%ª%«%¬%­%®%¯%°%±%²%³%´%µ%¶%·%¸%¹%º%»%¼%½%¾%¿%À%Á%Â%Ã%Ä%Å%Á ´%µ%¶%·%¸%ˆ%‰%¹%º%»%¼%¾$Å%½%¾%À%Á%Â%Ã%Ä%¿%£$¯%°%±%²%³%%ž%Ÿ% %¡%¢%£%¤%›%œ%¬%­%®%¥%¦%§%¨%©%ª%«%”%•%–%—%˜%™%š%%Ž%%Š%‹%Œ%%‘%’%“%«$    ¢       None!Á  Ü
Õ% futharkHow to compile a benchmark.Ú% futharkHow to run a benchmark.ß% futharkÛ Invoked for every runtime measured during the run.  Can be
 used to provide a progress bar.à% futhark8The results for all datasets for some benchmark program.â% futhark™The results for a single named dataset is either an error message, or
 runtime measurements, the number of bytes used, and the stderr that was
 produced.é% futhark&The runtime of a single succesful run.ì% futhark1Transform benchmark results to a JSON bytestring.í% futhark0Decode benchmark results from a JSON bytestring.î% futhark3Run the benchmark program on the indicated dataset.ï% futhark'Compile and produce reference datasets. ¿%Õ%Ö%×%Ø%Ù%Ú%Û%Ü%Ý%Þ%ß%à%á%â%ã%ä%å%æ%ç%è%é%ê%ë%ì%í%î%ï%é%ê%ë%â%ã%à%á%ä%å%æ%ç%è%ì%í%¿%î%Ú%Û%Ü%Ý%Þ%ß%ï%Õ%Ö%×%Ø%Ù%    £       Safe-InferredÀ Â Ó  ß8€& futhark'The class of things that we can map an  ‚& across.& futharkÔ Map a monadic action across the immediate children of an
 object.  Importantly, the  &• action is not invoked for
 the object itself, and the mapping does not descend recursively
 into subexpressions.  The mapping is done left-to-right.‚& futharkExpress a monad mapping operation on a syntax node.  Each element
 of this structure expresses the operation to be performed on a
 given child.‰& futharkAn  ‚&& that just leaves its input unchanged.Š& futharkÒ Remove all annotations from an expression, but retain the
 name/scope information. €&&‚&ƒ&„&…&†&‡&ˆ&‰&Š&‚&ƒ&„&…&†&‡&ˆ&€&&‰&Š&           Safe-InferredÁ  á	¤& futhark7Information about what is at the given source location.¦& futharkWhat a name is bound to.«& futharkÝ Where was a bound variable actually bound?  That is, what is the
 location of its definition?¬& futharkÁ Information about what's at the given source position.  Returns
  æ+É  if there is nothing there, including if the source
 position is invalid. po¤&¥&¦&§&¨&©&ª&«&¬&¦&§&¨&©&ª&«&¤&¥&¬&po    ¤       TrustworthyÁ Ð  á„³& futharkPerform the transformation. ³&³&    ¥       TrustworthyÐ  á×º& futharkPerform defunctorisation. º&º&    ¦       TrustworthyÁ Ð Ó  â³Å& futharkTransform a list of top-level value bindings. May produce new
 lifted function definitions, which are placed in front of the
 resulting list of declarations. Å&Å&    §       Safe-Inferred! ãFÒ& futhark0A representation of the essentials of a pattern.Ó& futharkFind the unmatched cases. Ò&Ó&Ó&Ò&    ¨       Safe-Inferred  äÇÛ& futhark,The warnings produced by the compiler.  The  ª,1 instance
 produces a human-readable description.Ü& futhark*True if there are any warnings in the set.Ý& futhark'A single warning at the given location.Þ& futharkß A single warning at the given location, but also with a stack
 trace (sort of) to the location. Û&Ü&Ý&Þ&Û&Ü&Ý&Þ&    ©       Trustworthy!À Á Â Ã Ä Ð Ó  ëåâ& futharkMonads that support type checking.  The reason we have this
 internal interface is because we use distinct monads for checking
 expressions and declarations.î& futhark$The type checker runs in this monad.ï& futhark!A mapping from import strings to  ‹#s.  This is used to resolve
 import declarations.ð& futhark0Information about an error during type checking.ò& futharkA collection of  û,s.ó& futharkA single note.ô& futharkAn unexpected functor appeared!õ& futhark#An unknown variable was referenced.ö& futharkAn unknown type was referenced.÷& futhark,A name prefixed with an underscore was used.ø& futharkRun a  î& computation.ù& futharkRetrieve the current  ‹#.ú& futhark$The name of the current file/import.û& futharkLook up a module type.ü& futharkLook up an import.ý& futharkEvaluate a  î&! computation within an extended (not
 replaced) environment.þ& futharkë Elaborate the given name in the given namespace at the given
 location, producing the corresponding unique  Ê.ÿ& futharkô Map source-level names do fresh unique internal names, and
 evaluate a type checker context with the mapping active.€' futharkë Try to prepend qualifiers to the type names such that they
 represent how to access the type in some scope.' futharkTurn a  î+  ð& into an actual error.‚' futharkAll signed integer types.ƒ' futharkAll unsigned integer types.„' futharkAll floating-point types.…' futharkAll number types.†' futharkAll primitive types.‡' futharkThe  ’#( corresponding to the intrinsics module.ˆ' futhark8The names that are available in the initial environment. È ‹#Œ#‘##Ž###’#“#”#•#–#—#˜#™#š#›#œ##ž#Ÿ# #¡#¢#£#¤#¦#¥#§#Û&Ü&Ý&Þ&â&í&ä&é&ë&ã&å&ê&æ&ç&è&ì&î&ï&ð&ñ&ò&ó&ô&õ&ö&÷&ø&ù&ú&û&ü&ý&þ&ÿ&€''‚'ƒ'„'…'†'‡'ˆ'Ä î&ø&ù&ú&ÿ&€'û&ü&ý&ð&ñ&ô&õ&ö&÷&ò&ó&â&í&ä&é&ë&ã&å&ê&æ&ç&è&ì&þ&'‹#Œ#‘##Ž###£#›#œ##ž#Ÿ#ï&’#“#”# #¡#¢#•#–#—#˜#™#š#‚'ƒ'„'…'†'¤#¦#¥#§#‡'ˆ'    ª       Safe-Inferred!À Á Â  ôÈ•' futharkâ Class of types which allow for substitution of types with no
 annotations for type variable names.—' futhark!Substitutions to apply in a type.˜' futharkÿA type substituion may be a substitution or a yet-unknown
 substitution (but which is certainly an overloaded primitive
 type!).  The latter is used to remove aliases from types that are
 yet-unknown but that we know cannot carry aliases (see issue #682).œ' futharkunifyTypes uf t1 t2 attempts to unify t1 and t2".  If
 unification cannot happen,  æ+> is returned, otherwise a type
 that combines the aliasing of t1 and t2* is returned.
 Uniqueness is unified with ufÐ .  Assumes sizes already match, and
 always picks the size of the leftmost type.' futharkx `subtypeOf` y is true if x is a subtype of y (or equal
 to y), meaning x is valid whenever y: is.  Ignores sizes.
 Mostly used for checking uniqueness.ž' futharkx  ž' y is true if x is not less unique than y.Ÿ' futharkUse   ' to check a type declaration. ' futharkType-check a single  ÿ, returning the checked  ÿñ ,
 its fully expanded type (modulo yet-unelaborated type variables),
 and whether it is potentially higher-order.¡' futhark÷ Check for duplication of names inside a pattern group.  Produces
 a description of all names used in the pattern group.¢' futharkcheckTypeParams ps m checks the type parameters ps!, then
 invokes the continuation mÉ  with the checked parameters, while
 extending the monadic name map with ps.£' futhark<Construct a type argument corresponding to a type parameter.¥' futhark6Additively combine two non-intersecting substitutions.¦' futharkPerform substitutions, from type names to types, on a type. Works
 regardless of what shape and uniqueness information is attached to the type. •'–'—'˜'›'™'š'œ''ž'Ÿ' '¡'¢'£'¤'¥'¦' 'Ÿ'œ''ž'¡'¢'£'˜'›'™'š'¤'—'¥'•'–'¦'    «       Trustworthy!Á Ð Û  ,%®' futharkÉ Monads that which to perform unification must implement this type
 class.·' futharkí The ridigity of a size variable.  All rigid sizes are tagged with
 information about how they were generated.º' futharkThe source of a rigid size.»' futhark<A function argument that is not a constant or variable name.¼' futharkAn existential return size.¾' futhark+Produced by a complicated slice expression.¿' futhark+Produced by a complicated range expression.À' futhark/Produced by a range expression with this bound.Á' futharkMismatch in branches.Â' futharkInvented during unification.Ä' futharkéMapping from fresh type variables, instantiated from the type
 schemes of polymorphic functions, to (possibly) specific types as
 determined on application and the location of that application, or
 a partial constraint on their type.Å' futhark.A constraint on a yet-ambiguous type variable.Î' futharkÛ Is not actually a type, but a term-level size,
 possibly already set to something specific.Ï' futharkšA size that does not unify with anything -
 created from the result of applying a function
 whose return size is existential, or otherwise
 hiding a size.Ð' futharkð The level at which a type variable is bound.  Higher means
 deeper.  We can only unify a type variable at level i with a type
 t! if all type names that occur in t are at most at level i.Ñ' futhark&A usage that caused a type constraint.Ò' futhark¶Unification failures can occur deep down inside complicated types
 (consider nested records).  We leave breadcrumbs behind us so we
 can report the path we took to find the mismatch.Ó' futharkAn empty path.Ô' futharkIs the path empty?Õ' futharkConstruct a  Ñ'# from a location and a description.Ö' futharkConstruct a  Ñ': that has just a location, but no particular
 description.×' futhark>Retrieve notes describing the purpose or origin of the given
  ªä .  The location is used as the *current* location, for the
 purpose of reporting relative locations.Ø' futhark3Replace all type variables with their substitution.Ù' futhark:Replace any top-level type variable with its substitution.Ú' futharkReplace  ­ dimensions that occur as  ©! or
  ª! with a fresh  «.Û' futharkUnifies two types.Ü' futharkexpect super sub checks that sub is a subtype of super.Ý' futhark?Assert that this type must be one of the given primitive types.Þ' futhark,Assert that this type must support equality.ß' futhark)Assert that this type must be zero-order.à' futhark8Assert that this type must be valid as an array element.á' futharkIn mustHaveConstr usage c t fs, the type t  must have a
 constructor named c that takes arguments of types ts.â' futharkÀ Assert that some type must have a field with this name and type.ã' futhark)Replace dimension mismatches with AnyDim.ä' futharkó Like unification, but creates new size variables where mismatches
 occur.  Returns the new dimensions thus created.å' futharkåConstruct the name of a new type variable given a base
 description and a tag number (note that this is distinct from
 actually constructing a VName; the tag here is intended for human
 consumption but the machine does not care).æ' futhark™Perform a unification of two types outside a monadic context.
 The type parameters are allowed to be instantiated; all other types
 are considered rigid. 9®'¯'°'±'²'³'´'µ'¶'·'¸'¹'º'»'¼'½'¾'¿'À'Á'Â'Ã'Ä'Å'È'Î'Æ'Ç'É'Ê'Ë'Ì'Í'Ï'Ð'Ñ'Ò'Ó'Ô'Õ'Ö'×'Ø'Ù'Ú'Û'Ü'Ý'Þ'ß'à'á'â'ã'ä'å'æ'9Å'È'Î'Æ'Ç'É'Ê'Ë'Ì'Í'Ï'Ñ'Õ'Ö'Ð'Ä'®'¯'°'±'²'³'´'µ'¶'·'¸'¹'º'»'¼'½'¾'¿'À'Á'Â'Ã'Ò'Ó'Ô'×'å'ß'à'á'â'Ý'Þ'Ù'Ø'Ú'Û'Ü'ä'ã'æ'    ¬       TrustworthyÀ Á Â Ð  ãú' futhark–Monomorphise a list of top-level declarations. A module-free input program
 is expected, so only value declarations and type declaration are accepted. ú'ú'    ­       Safe-Inferred	!Á Ë Ó Ù ï ð  |‡( futharkÏ Convert a program in source Futhark to a program in the Futhark
 core language. ‡(‡(    ®       Trustworthy!7À Á Â Ð Ó  ˆ( futharkœType-check a single expression in isolation.  This expression may
 turn out to be polymorphic, in which case the list of type
 parameters will be non-empty.‰( futhark«Type-check a top-level (or module-level) function definition.
 Despite the name, this is also used for checking constant
 definitions, by treating them as 0-ary functions. ˆ(‰(ˆ(‰(    ¯       Safe-Inferred!Ó  	§( futharkâ Create unique renames for the module type.  This is used for
 e.g. generative functor application.¨( futhark,Refine the given type name in the given env.©( futharkÞReturn new renamed/abstracted env, as well as a mapping from
 names in the signature to names in the new env.  This is used for
 functor application.  The first env is the module env, and the
 second the env it must match.ª( futhark)Apply a parametric module to an argument. §(¨(©(ª(©(§(¨(ª(    °       Safe-Inferred!Á  Ì«( futharkãType check a program containing no type information, yielding
 either a type error or a program with complete type information.
 Accepts a mapping from file names (excluding extension) to
 previously type checked results.  The  ®# is used to resolve
 relative imports.¬( futhark„Type check a single expression containing no type information,
 yielding either a type error or the same expression annotated with
 type information.  Also returns a list of type parameters, which
 will be nonempty if the expression is polymorphic.  See also
  «(.­( futharkÎType check a single declaration containing no type information,
 yielding either a type error or the same declaration annotated with
 type information along the Env produced by that declaration.  See
 also  «(.®( futharkÓType check a single module expression containing no type information,
 yielding either a type error or the same expression annotated with
 type information along the Env produced by that declaration.  See
 also  «(.¯( futharkÍ An initial environment for the type checker, containing
 intrinsics and such. Û&ð&«(¬(­(®(¯(«(¬(­(®(ð&Û&¯(    ±       Safe-Inferred!Á  °( futharkÈ Pre-typechecked imports, including a starting point for the name source.´( futhark'Files that should be implicitly opened.µ( futharkÎ A basis that contains no imports, and has a properly initialised
 name source.¶( futharkè Read (and parse) all source files (including the builtin prelude)
 corresponding to a set of root files.·( futhark'Read and type-check some Futhark files.¸( futhark(Read and type-check Futhark imports (no .futˆ extension; may
 refer to baked-in prelude).  This is an exotic operation that
 probably only makes sense in an interactive environment.·(  futharkö Extra functions that should be marked as entry points; only
 applies to the immediate files, not any imports imported. futharkThe files to read.¨#©#ª#­#«#¬#Û&°(±(²(³(´(µ(¶(·(¸(·(¶(¸(¨#©#ª#­#«#¬#Û&°(±(²(³(´(µ(    ²       Safe-Inferred!Á ï ð  ¹( futharkÕThe compiler configuration.  This only contains options related
 to core compiler functionality, such as reading the initial program
 and running passes.  Options related to code generation are handled
 elsewhere.¼( futharkWarn if True.½( futharkIf true, error on any warnings.¾( futharkIf True, ignore unsafe.¿( futhark<Additional functions that should be exposed as entry points.À( futharkIf false, disable type-checkingÁ( futhark#The default compiler configuration.Â( futhark'Print a compiler error to stdout.  The  ¹(Ý  controls
 to which degree auxiliary information (e.g. the failing program) is
 also printed.Ã( futharkRead a program from the given  ç+, run the given
  †, and finish up with the given  ‹.Ä( futharkRead a program from the given  ç+, run the given
  †, and return it.Å( futhark=Read and type-check a Futhark program, including all imports.Æ( futharkÑ Read and parse (but do not type-check) a Futhark program,
 including all imports.Ç( futhark-Not verbose, and terminates process on error.È( futhark-Not verbose, and terminates process on error.É( futhark×Run an operation that produces warnings, and handle them
 appropriately, yielding the non-warning return value.  "Proper
 handling" means e.g. to print them to the screen, as directed by
 the compiler configuration. !¨#©#ª#¬#­#«#Û&°(±(´(²(³(µ(¶(·(¸(¹(º(»(¼(½(¾(¿(À(Á(Â(Ã(Ä(Å(Æ(Ç(È(É(Ä(Ã(¹(º(»(¼(½(¾(¿(À(Á(Â(É(Å(Ç(Æ(È(    ³       Trustworthy!.À Á Â Ã Ä Ë Ð Ù â ï ð  &!)Ê( futharkCompile things to  ›.Ë( futharkCompile to an  ›Ê , where the type (must must still be a
 primitive) is deduced monadically.Ì( futhark*Compile where we know the type in advance.Ï( futharkòA typed variable, which we can turn into a typed expression, or
 use as the target for an assignment.  This is used to aid in type
 safety when doing code generation, by keeping the types straight.
 It is still easy to cheat when you need to.Ñ( futhark)The symbol table used during compilation.Ò( futhark;Every non-scalar variable must be associated with an entry.á( futhark3When an array is dared, this is where it is stored.í( futhark,An alternate way of compiling an allocation.ï( futharkHow to compile an  ™.ð( futharkHow to compile some  Ì.ñ( futharkHow to compile an  ÿ.ò( futharkÄ An operations set for which the expression compiler always
 returns  ƒ).õ( futharkÇ Execute a code generation action, returning the code that was
 emitted.÷( futharkÈ Execute a code generation action, wrapping the generated code
 within a  ³ with the given description.ø( futhark$Emit some generated imperative code.ù( futhark;Emit a warning about something the user should be aware of.ú( futhark&Emit a function in the generated code.û( futhark+Check if a function of a given name exists.ˆ) futharkÒ The return type is polymorphic, so there is no guarantee it
 actually matches the  ª/, but at least we have to use it
 consistently.) futharkÕCreate a typed variable from a name and a dynamic type.  Note
 that there is no guarantee that the dynamic type corresponds to the
 inferred static type, but the latter will at least have to be used
 consistently.) futhark.Convert a typed variable to a size (a SubExp).‘) futhark9Convert a typed variable to a similarly typed expression.’) futhark;Extract the underlying variable name from a typed variable.•) futharkGenerate a  Ê, prefixed with  ”) if it exists.–) futharkGenerate a  Ì, prefixed with  ”) if it exists.š) futharkGet the current symbol table.›) futhark÷ Run an action with a modified symbol table.  All changes to the
 symbol table will be reverted once the action is done!Ÿ) futharkÍ In the case of a histogram-like accumulator, also sets the index
 parameters.£) futhark-Is this copy really a mapping with transpose?¥) futharkòCopy from here to there; both destination and source be
 indexeded.  If so, they better be arrays of enough dimensions.
 This function will generally just Do What I Mean, and Do The Right
 Thing.  Both destination and source must be in scope.¦) futharkAs  ¥), but implicitly  €es the indexes.§) futharkcompileAlloc pat size space allocates n bytes of memory in space,
 writing the result to dest, which must be a single
  ü,,¨) futharká The number of bytes needed to represent the array in a
 straightforward contiguous format, as an   expression.©) futharkŠIs this indexing in-bounds for an array of the given shape?  This
 is useful for things like scatter, which ignores out-of-bounds
 writes.µ) futhark>Declare an array in row-major order in the given memory block.¶) futharkLike  ·)Ç , but permute the in-memory representation of the indices as specified.·) futhark Uses linear/iota index function.¸) futhark Uses linear/iota index function.¼) futharkUntyped assignment.½) futharkTyped assignment.¾) futharkê Constructing an ad-hoc function that does not
 correspond to any of the IR functions in the input program. ù Û&Ü&Ý&Þ&Ê(Ë(Ì(Î(Í(Ï(Ð(Ñ(Ò(Ó(Ô(Õ(Ö(×(Ø(Ù(Ú(Û(Ü(Ý(Þ(ß(à(á(â(ã(ä(å(æ(ç(è(é(ê(ë(ì(í(î(ï(ð(ñ(ò(ó(ô(õ(ö(÷(ø(ù(ú(û(ü(ý(þ(ÿ(€))‚)ƒ)„)…)†)‡)ˆ)‰)Š)‹)Œ))Ž)))‘)’)“)”)•)–)—)˜)™)š)›)œ))ž)Ÿ) )¡)¢)£)¤)¥)¦)§)¨)©)ª)«)¬)­)®)¯)°)±)²)³)´)µ)¶)·)¸)¹)º)»)¼)½)¾)õ ü(ñ(ï(î(ð(í(æ(ç(è(é(ê(ë(ì(ò(á(â(ã(ä(å(Ú(Û(Ü(×(Ø(Ù(Ð(“)”)•)–)—)˜)™)Ñ(š)›)ô(ó(ø(ú(û(õ(ö(÷(Ò(Ó(Ô(Õ(Ö(Ý(Þ(ß(à(œ))ž)Ÿ)Ï())‘)’)Ê(Ë(Ì(Î(Í(§)Ž)ý(þ(ÿ()€)‚)ƒ) )¡)¢)¥)¦)¤)¨)©)£)…)„)Œ))ˆ)†)‡)‰)Š)‹)ª)«)¬)­)®)¯)°)±)³)²)´)µ)·)¶)¸)¹)º)»)½)¼)¾)ù( ¼)3 ½)3   ´       NoneÁ Ë Ù  ({Ð) futhark
Compile a  ì' program to sequential imperative code. Û&Ð)Ð)Û&    µ       None  (ÔÑ) futhark$Compile the program to sequential C. Ö×ØÙÚÛÜžŸ Ñ)Ñ)Ö×ØÙÚÛÜžŸ     ¶       None  -?Ò) futhark‘The mechanism that will be used for performing the atomic update.
 Approximates how efficient it will be.  Ordered from most to least
 efficient.Ô) futharkCan be done by efficient swaps.Õ) futharkRequires explicit locking.Ö) futhark+Locking strategy used for an atomic update.Ø) futharkArray containing the lock.Ù) futhark'Value for us to consider the lock free.Ú) futharkWhat to write when we lock it.Û) futhark What to write when we unlock it.Ü) futharkŒA transformation from the logical lock index to the
 physical position in the array.  This can also be used
 to make the lock array smaller.â) futhark7Information about the locks available for accumulators.æ) futharkIs there an atomic  î corresponding to this  î?î) futhark7Arrays for storing group results shared between threadsñ) futharkÄ Try to extract invariant allocations.  If we assume that the
 given  Ü is the body of a  —Ë , then it is always safe
 to move the immediate allocations to the prebody. "Ò)Ó)Ô)Õ)Ö)×)Ø)Ù)Ú)Û)Ü)Ý)Þ)ß)à)á)â)ã)ä)å)æ)ç)è)é)ê)ë)ì)í)î)ï)ð)ñ)ò)ó)"ñ)ì)â)ã)ä)å)Þ)ß)à)á)æ)Ý)ð)ï)î)ë)í)ò)ó)Ò)Ó)Ô)Õ)Ö)×)Ø)Ù)Ú)Û)Ü)è)é)ê)ç)    ·       None  -å  ô)ô)    ¸       None  .õ) futhark$Generate code for a SegRed constructö) futharkLike  õ)), but where the body is a monadic action. õ)ö)õ)ö)    ¹       None  .¥  ÷)÷)    º       None  .Ç  ø)ø)    »       NoneÁ Ë Ù  .ñ  Û&ù)ù)Û&    ¼       None! /cú) futhark9Compile the program to ImpCode with multicore operations. Ö×ØÙÚÛÜžŸ ú)ú)Ö×ØÙÚÛÜžŸ     ½       NoneÁ Ë Ù â  9`û) futharkIs there an atomic  î corresponding to this  î?ü) futhark‘The mechanism that will be used for performing the atomic update.
 Approximates how efficient it will be.  Ordered from most to least
 efficient.ý) futhark Supported directly by primitive.þ) futharkCan be done by efficient swaps.ÿ) futharkRequires explicit locking.€* futharkÜ A function for generating code for an atomic update.  Assumes
 that the bucket is in-bounds.* futhark+Locking strategy used for an atomic update.ƒ* futharkArray containing the lock.„* futhark'Value for us to consider the lock free.…* futharkWhat to write when we lock it.†* futhark What to write when we unlock it.‡* futharkŒA transformation from the logical lock index to the
 physical position in the array.  This can also be used
 to make the lock array smaller.•* futharkÑ A mapping from dimensions of nested SegOps to already
 computed local thread IDs.¢* futhark7Information about the locks available for accumulators.¦* futharkÍWhich target are we ultimately generating code for?  While most
 of the kernels code is the same, there are some cases where we
 generate special code based on the ultimate low-level API we are
 targeting.«* futharkAssign iterations of a for-loop to all threads in the kernel.
 The passed-in function is invoked with the (symbolic) iteration.
  ý,Â  will be in effect in the body.  For
 multidimensional loops, use  ­*.¬* futhark¢Assign iterations of a for-loop to threads in the workgroup.  The
 passed-in function is invoked with the (symbolic) iteration.  For
 multidimensional loops, use  ­*.­* futhark¶Iterate collectively though a multidimensional space, such that
 all threads in the group participate.  The passed-in function is
 invoked with a (symbolic) point in the index space.®* futhark>Do an atomic update corresponding to a binary operator lambda.³* futhark–For many kernels, we may not have enough physical groups to cover
 the logical iteration space.  Some groups thus have to perform
 double duty; we put an outer loop to accomplish this.  The
 advantage over just launching a bazillion threads is that the cost
 of memory expansion should be proportional to the number of
 *physical* threads (hardware parallelism), not the amount of
 application parallelism.¶* futhark"Perform a Replicate with a kernel.·* futharkPerform an Iota with a kernel. À û)ü)ý)þ)ÿ)€**‚*ƒ*„*…*†*‡*ˆ*‰*’**‘*Š*‹*Œ**Ž**“*”*•*–*—*˜*™*š*›*œ**ž*Ÿ*¡* *¢*£*¤*¥*¦*§*¨*©*ª*«*¬*­*®*¯*°*±*²*³*´*µ*¶*·*¸*¹*º*À ˆ*‰*’**‘*Š*‹*Œ**Ž**“*”*•*ª*—*–*¢*£*¤*¥**ž*Ÿ*¡* *¦*§*¨*˜*™*š*›*œ*¯*±*²*°*´*µ*¶*·*¸*º*¹*³*¬*«*­*©*®*û)*‚*ƒ*„*…*†*‡*ü)ý)þ)ÿ)€*    ¾       NoneÁ Ë Ù  :ã»* futharkCompile  š< instance to host-level code with calls to
 various kernels. »*»*    ¿       NoneÁ Ë Ù  ;n¼* futharkCompile  šÁ  instance to host-level code with calls to a
 single-pass kernel. ¼*¼*    À       None  ;ë½* futharkCompile  š< instance to host-level code with calls to
 various kernels. ½*½*    Á       NoneÁ Ë Ù  =³¾* futharkCode generation for the body of the SegRed, taking a continuation
 for saving the results of the body.  The results should be
 represented as a pairing of a  †) along with a list of
 indexes into that  † for reading the result.¿* futharkCompile  ™< instance to host-level code with calls to
 various kernels.À* futharkLike  ¿*), but where the body is a monadic action. ¾*¿*À*¿*À*¾*    Â       NoneÁ Ë Ù  >Á* futharkCompile  ˜ instance code. Á*Á*    Ã       None!Á Ë Ù  >ŠÂ* futhark=Generate code for a segmented histogram called from the host. Â*Â*    Ä       None.Á Ë Ù Û  ?žÅ* futhark
Compile a  ÕÑ  program to low-level parallel code, with
 either CUDA or OpenCL characteristics.Æ* futhark
Compile a  ÕÑ  program to low-level parallel code, with
 either CUDA or OpenCL characteristics. Û&Å*Æ*Å*Æ*Û&    Å       None  @
Ç* futhark3Compile the program to ImpCode with OpenCL kernels. Û&Ç*Ç*Û&    Æ       NoneÁ Ó  @rÈ* futhark.Compile the program to C with calls to OpenCL. Ö×ØÙÚÛÜžŸ È*È*Ö×ØÙÚÛÜžŸ     Ç       None  @üÉ* futhark1Compile the program to ImpCode with CUDA kernels. Û&É*É*Û&    È       NoneÓ  A`Ê* futhark,Compile the program to C with calls to CUDA. Ö×ØÙÚÛÜžŸ Ê*Ê*Ö×ØÙÚÛÜžŸ     î       Safe-Inferred  A´  þ,ÿ,€--‚-ƒ-„-…-     É       Trustworthy B¨Ë* futharké The version of Futhark that we are using.  This is equivalent to
 the version defined in the .cabal file.Ì* futhark/The version of Futhark that we are using, as a  å+ Ë*Ì*Ë*Ì*    Ê       Safe-Inferred  D%Í* futharkè A command line option that either purely updates a configuration,
 or performs an IO action (and stops).Î* futharkØ Generate a main action that parses the given command line options
 (while always adding  Ï*).Ï* futharkCommon definitions for -v and -h', given the list of all other
 options. †-‡-ˆ-‰-Š-‹-Œ--Ž---‘-’-Í*Î*Ï*Í*Î*Ï*    Ë       Safe-Inferred  FáÐ* futhark,Are we compiling a library or an executable?Ô* futhark2An option that modifies the configuration of type cfg.Õ* futhark,Run a parameterised Futhark compiler, where cfg6 is a user-given
 configuration type.  Call this from main.Õ*  futharkInitial configuration. futhark&Options that affect the configuration. futhark,The short action name (e.g. "compile to C"). futharkThe longer action description. futharkThe pipeline to use. futhark1The action to take on the result of the pipeline. futharkProgram name futharkCommand line arguments.É ±²³µ´¶·¸¹º»¼½¾¿†‡ˆ‰Š‹ŒŽ‘”’“•–—˜¨#©#ª#¬#­#«#Û&°(±(´(²(³(µ(¶(·(¸(¹(º(À(¿(¾(½(»(¼(Á(Â(Ã(Ä(Å(Æ(Ç(È(É(Ð*Ñ*Ò*Ó*Ô*Õ*Õ*Ô*Ð*Ñ*Ò*Ó*    Ì       None!Ð Ó â  M«Ù* futharkß The class generated by the code generator must have a
 constructor, although it can be vacuous.ð* futhark0Unpack the array being passed to an entry point.ñ* futhark>Construct the Python array being returned from an entry point.ò* futhark;Create a static array of values - initialised at load time.ó* futhark&Copy from one memory block to another.ô* futharkô Allocate a memory block of the given size in the given memory
 space, saving a reference in the given variable name.õ* futharkÞ Read a scalar from the given memory block with the given index and
 in the given memory space.ö* futharkÝ Write a scalar to the given memory block with the given index and
 in the given memory space.÷* futharkÎ A substitute expression compiler, tried before the main
 compilation function.ø* futharkñ A set of operations that fail for every operation involving
 non-default memory spaces.  Uses plain pointers and malloc for
 memory management.ý* futhark7A constructor that takes no arguments and does nothing.ÿ* futharkA  õÂ  where the function is a variable and every argument is a
 simple  æ.„+ futhark#The ctypes type corresponding to a  ª.…+ futhark#The ctypes type corresponding to a  ª, taking sign into account.†+ futhark"The Numpy type corresponding to a  ª.‡+ futhark"The Numpy type corresponding to a  ª, taking sign into account.Š+ futharkTell me how to compile a v, and I'll Compile any 	PrimExp v	 for you. 5Ð*Ù*Ú*Û*Ü*Ý*Þ*á*ß*à*â*ã*ä*å*æ*ç*è*é*ê*ë*ì*í*î*ï*ð*ñ*ò*ó*ô*õ*ö*÷*ø*ù*ú*û*ü*ý*þ*ÿ*€++‚+ƒ+„+…+†+‡+ˆ+‰+Š+‹+Œ+5þ*Ð*Ù*Ú*ý*€+‰++‹+Š+Œ+ˆ+„+…+†+‡+æ*ç*è*é*ê*ë*ì*í*î*ï*ø*‚+Û*Ü*÷*ö*õ*ô*ó*ò*ñ*ð*â*ã*ä*å*Ý*Þ*á*ß*à*ü*û*ú*ù*ÿ*ƒ+    Í       None  NÊ”+ futharkCompile the program to Python. ”+”+    Î       None! OÂ•+ futharkrtspython	opencl.py embedded as a string.–+ futhark*Python code (as a string) that calls the
 initiatialize_opencl_object5 procedure.  Should be put in the
 class constructor. •+–+–+•+    Ï       NoneÁ Ó  P.—+ futhark3Compile the program to Python with calls to OpenCL. —+—+    Ð       NoneÁ  Ps˜+ futharkRun 
futhark py ˜+˜+    Ñ       NoneÁ  PÂ™+ futharkRun futhark pyopencl. ™+™+    Ò       NoneÁ  S4
š+ futharkPrint the result to stdout.›+ futhark.Print the result to stdout, alias annotations.œ+ futhark.Print metrics about AST node counts to stdout.+ futharkÁ Convert the program to sequential ImpCode and print it to stdout.ž+ futhark:Convert the program to GPU ImpCode and print it to stdout.Ÿ+ futharkÄ Convert the program to CPU multicore ImpCode and print it to stdout. + futharkThe 	futhark c action.¡+ futharkThe futhark opencl action.¢+ futharkThe futhark cuda action.£+ futharkThe futhark multicore action. 
š+›+œ++ž+Ÿ+ +¡+¢+£+
š+›++ž+Ÿ+œ+ +¡+¢+£+    Ó       NoneÁ  S¡¤+ futharkRun futhark opencl ¤+¤+    Ô       NoneÁ  Sñ¥+ futharkRun futhark multicore. ¥+¥+    Õ       NoneÁ  T<¦+ futharkRun futhark cuda. ¦+¦+    Ö       NoneÁ  T€§+ futharkRun 	futhark c §+§+    ×       None!Á â  TÎ¨+ futharkRun futhark test. ¨+¨+    Ø       None!Á Û  U±+ futharkRun futhark run. ±+±+    Ù       Safe-Inferred  Uo²+ futharkRun futhark query. ²+²+    Ú       None!Ð  Uº³+ futharkRun futhark pkg. ³+³+    Û       NoneÁ  V5¼+ futharkfuthark imports½+ futharkfuthark hash¾+ futharkfuthark dataget ¼+½+¾+¼+½+¾+    Ü       None!Á Ð  V¿+ futharkRun futhark script. ¿+¿+    Ý       NoneÁ Ö Û  WÎ+ futharkÚ Entry point.  Non-interactive, except when reading interpreter
 input from standard input. Î+Î+    Þ       None!ï ð  WpÒ+ futharkRun futhark dataset. Ò+Ò+    ß       Safe-Inferred! WÂÖ+ futharkRun futhark datacmp Ö+Ö+    à       Safe-Inferred  X×+ futharkRun futhark check. ×+×+    á       None!Á  XcØ+ futharkRun futhark bench. Ø+Ø+    â       None!Á  X¯Ú+ futharkRun futhark autotune Ú+Ú+    ã       None! ZÜ+ futhark%renderFiles important_imports imports; produces HTML files
 documenting the type-checked program imports, with the files in
 important_imports› considered most important.  The HTML files must
 be written to the specific locations indicated in the return value,
 or the relative links will be wrong. Ü+Ü+    ä       None!Ó  ZjÝ+ futharkRun futhark doc. Ý+Ý+    å       None!Á Ð Û  Z¼Þ+ futharkRun futhark repl. Þ+Þ+  “- ïðñ ïðò ïðó ïðô ïõö ïõ÷ ïõø ïõù úû ü ýþ ÿ ýþ € ýþ  ýþ ‚ ýþ ƒ ýþ „ ýþ … ýþ † ýþ ‡ ýþ ˆ ýþ ‰ ýþ Š ýþ ‹ ýþ Œ ýþ  ýþ Ž ýþ  ýþ  ýþ ‘ ýþ ’ ýþ “ ýþ ” ýþ • ýþ – ýþ — ýþ ˜ ýþ ™ ýþ š ýþ › ýþ œ ýþ  ýþ ž ýþ Ÿ ýþ   ýþ ¡ ýþ ¢ ýþ £ ýþ ¤ ýþ ¥ ýþ ¦ ýþ § ýþ ¨ ýþ © ýþ ª ýþ « ýþ ¬ ýþ ­ ýþ ® ýþ ¯ ýþ ° ýþ ± ýþ ² ýþ ³ ýþ ´ ýþ µ ýþ ¶ ýþ · ýþ ¸ ýþ ¹ ýþ º ýþ » ýþ ¼ ýþ ½ ýþ ¾ ýþ ¿ ýþ À ýþ Á ýþ Â ýþ Ã ýþ Ä ýþ Å ýþ Æ ýþ Ç ýþ È ýþ É ýþ Ê ýþ Ë ýþ Ì ýþ Í ýþ Î ýþ Ï ýþ Ð ýþ Ñ ýþ Ò ýþ Ó ýþ Ô ýþ Õ ýþ Ö ýþ × ýþ Ø ýþÙ ýþÚ ýþÛ ýþÜ ýþÝ ýþÞ ýþß ýþà ýþá âã ä åæ ç úû è úûé úûé úûê úûë úû ì úûí îï ð îï ñ îï ò îï ó îï ô îï õ îïö îïö îï÷ îïø îïù  ú  ú   û   ü  ý  þ  ÿ  €       ‚   ƒ   „   …   †   ‡  	 ˆ  	 ‰  	 Š  	 ‹  	 Œ  	   Ž  Ž          ‘   ’   “  ”  ”   •   –   —  ˜  ˜   ™   š  ›  œ  œ     ž   Ÿ       ¡   ¢   £   ¤   ¥   ¦   §   ¨   ©   ª   «   ¬   ­   ®   ¯   °   ±   ²   ³   ´   µ   ¶   ·   ¸   ¹  
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À  > ì  > Á  > Â  > Ã  > ·
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  “    “ ‚   “ ƒ   “ „   “ …   “ †   “ ‡   “ ˆ   “ ‰   “ Š   “ ‹   “ Œ   “    “ Ž   “    “    “ ‘   “ ’   “ “   “ ”   “ •   “ –   “ —   “ ˜   “ ™   “ š   “ ›   “ œ   “    “ ž   “ Ÿ   “     “ ¡   “ ¢   “ £   ”¤   ”¥   ”¦   ”§   ”¨   ”©   ”ª   ”«   ”¬   ”­   ”®   ”¯   ”°   ”±   ”²   ”³   ”´   ”µ   ”¶   ”·   ”¸   ”¹   ”º   ”»   ”¼   ” ˆ  ” ‰  ” ½   ” ¾   ” ¿   ” À   ” Á   ” Â   ” Œ  ”   ” Ã   ” ¦  ” Ä   ” Å   ” Æ   ” ˜  ”   ” ™  ” Ç   ” È   ” É   ” Ê   ” Ë   ” Ì   ” Í   ” Î   ” Ï   ” Ð   ” Ñ   ” Ò   ” Ó   ” Ô   ” ¦  ” Õ   ” Ö  ” †  ” Ö   ” ×   ” Ø   ” Ù   ” Ú   ” Û   ” Ü   ” Ý   ” Þ   ” †
  ” ‰
  ” ß   ” à   ” á   ” â   ” ã   ” ä   ” å   ” æ   ” ç   ” è   ” é   ” ê   ” ë   ” ì   ” í   ” î   ” ï   ” ð   •ñ   • ò   •ó   • ô   • õ   • ö   • ÷   • ø   • ù   • Ÿ
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ark.IR.Prop.AliasesFuthark.Analysis.UsageTableFuthark.Analysis.RephraseFuthark.Analysis.Metrics!Futhark.Analysis.DataDependenciesFuthark.PassFuthark.Binder.ClassFuthark.BinderFuthark.IR.AliasesFuthark.Optimise.Simplify.LoreFuthark.Analysis.AliasFuthark.ConstructFuthark.TypeCheckFuthark.Pipeline2Futhark.Optimise.InPlaceLowering.SubstituteIndices Futhark.Analysis.PrimExp.Convert&Futhark.Optimise.Simplify.Rules.SimpleFuthark.IR.Mem.IxFunFuthark.Analysis.SymbolTable%Futhark.Optimise.Simplify.Rules.IndexFuthark.Optimise.Simplify.Rule*Futhark.Optimise.Simplify.Rules.ClosedForm$Futhark.Optimise.Simplify.Rules.Loop'Futhark.Optimise.Simplify.Rules.BasicOpFuthark.Optimise.Simplify.Rules Futhark.Optimise.Simplify.Engine!Futhark.Analysis.PrimExp.SimplifyFuthark.Optimise.SimplifyFuthark.Transform.CopyPropagateFuthark.IR.SeqFuthark.IR.SOACS.SOACFuthark.ToolsFuthark.IR.SOACS%Futhark.Transform.FirstOrderTransform Futhark.Pass.FirstOrderTransform"Futhark.Pass.ExtractKernels.ISRWIM!Futhark.Internalise.AccurateSizesFuthark.IR.SOACS.SimplifyFuthark.Analysis.CallGraphFuthark.IR.Mem Futhark.Pass.ExplicitAllocationsFuthark.IR.SegOp)Futhark.Pass.ExtractKernels.BlockedKernel(Futhark.Pass.ExtractKernels.Distribution'Futhark.Pass.ExtractKernels.Interchange+Futhark.Pass.ExtractKernels.DistributeNestsFuthark.IR.Mem.SimplifyFuthark.IR.MC.OpFuthark.IR.MCMemFuthark.IR.MCFuthark.IR.Kernels.KernelFuthark.Optimise.CSE Futhark.Optimise.InliningDeadFunFuthark.IR.SeqMem$Futhark.Pass.ExplicitAllocations.SeqFuthark.IR.KernelsFuthark.Pass.KernelBabysitting%Futhark.Pass.ExtractKernels.ToKernelsFuthark.Pass.ExtractMulticore(Futhark.Pass.ExtractKernels.StreamKernel&Futhark.Pass.ExtractKernels.IntragroupFuthark.Pass.ExtractKernels!Futhark.Optimise.TileLoops.SharedFuthark.Optimise.Sink-Futhark.Optimise.InPlaceLowering.LowerIntoStm Futhark.Optimise.InPlaceLoweringFuthark.Optimise.BlkRegTilingFuthark.Optimise.TileLoopsFuthark.IR.Kernels.SimplifyFuthark.Optimise.UnstreamFuthark.IR.KernelsMemFuthark.Pass.Simplify&Futhark.Pass.ExplicitAllocations.SegOp#Futhark.Pass.ExplicitAllocations.MC(Futhark.Pass.ExplicitAllocations.KernelsFuthark.Pass.ExpandAllocationsFuthark.Optimise.DoubleBufferFuthark.IR.ParseFuthark.Analysis.HORep.SOAC!Futhark.Optimise.Fusion.ComposingFuthark.Analysis.HORep.MapNest"Futhark.Optimise.Fusion.LoopKernelFuthark.Optimise.FusionFuthark.PassesFuthark.CodeGen.ImpCodeFuthark.CodeGen.SetDefaultSpace Futhark.CodeGen.ImpGen.Transpose"Futhark.CodeGen.ImpCode.SequentialFuthark.CodeGen.ImpCode.OpenCL!Futhark.CodeGen.ImpCode.MulticoreFuthark.CodeGen.ImpCode.Kernels(Futhark.CodeGen.ImpGen.Kernels.Transpose"Futhark.CodeGen.Backends.SimpleRep(Futhark.CodeGen.Backends.GenericC.Server%Futhark.CodeGen.Backends.GenericC.CLI!Futhark.CodeGen.Backends.GenericC'Futhark.CodeGen.ImpGen.Kernels.ToOpenCL0Futhark.CodeGen.Backends.SequentialC.Boilerplate,Futhark.CodeGen.Backends.COpenCL.Boilerplate*Futhark.CodeGen.Backends.CCUDA.Boilerplate*Futhark.CodeGen.Backends.GenericPython.AST.Futhark.CodeGen.Backends.GenericPython.OptionsLanguage.Futhark.PreludeLanguage.Futhark.SyntaxLanguage.Futhark.PropLanguage.Futhark.PrettyLanguage.Futhark.ParserLanguage.FutharkLanguage.Futhark.SemanticLanguage.Futhark.InterpreterFuthark.Internalise.TypesValuesFuthark.Internalise.LambdasFuthark.Internalise.FreeVarsFuthark.Internalise.BindingsFuthark.Test.ValuesFuthark.Test.Values.ParserFuthark.ScriptFuthark.TestFuthark.BenchLanguage.Futhark.TraversalsFuthark.Internalise.LiftLambdas Futhark.Internalise.Defunctorise#Futhark.Internalise.Defunctionalise"Language.Futhark.TypeChecker.MatchLanguage.Futhark.Warnings"Language.Futhark.TypeChecker.Monad"Language.Futhark.TypeChecker.Types"Language.Futhark.TypeChecker.Unify Futhark.Internalise.MonomorphiseFuthark.Internalise"Language.Futhark.TypeChecker.Terms$Language.Futhark.TypeChecker.ModulesLanguage.Futhark.TypeCheckerFuthark.Compiler.ProgramFuthark.CompilerFuthark.CodeGen.ImpGen!Futhark.CodeGen.ImpGen.Sequential$Futhark.CodeGen.Backends.SequentialC%Futhark.CodeGen.ImpGen.Multicore.Base(Futhark.CodeGen.ImpGen.Multicore.SegScan'Futhark.CodeGen.ImpGen.Multicore.SegRed'Futhark.CodeGen.ImpGen.Multicore.SegMap(Futhark.CodeGen.ImpGen.Multicore.SegHist Futhark.CodeGen.ImpGen.Multicore#Futhark.CodeGen.Backends.MulticoreC#Futhark.CodeGen.ImpGen.Kernels.Base.Futhark.CodeGen.ImpGen.Kernels.SegScan.TwoPass1Futhark.CodeGen.ImpGen.Kernels.SegScan.SinglePass&Futhark.CodeGen.ImpGen.Kernels.SegScan%Futhark.CodeGen.ImpGen.Kernels.SegRed%Futhark.CodeGen.ImpGen.Kernels.SegMap&Futhark.CodeGen.ImpGen.Kernels.SegHistFuthark.CodeGen.ImpGen.KernelsFuthark.CodeGen.ImpGen.OpenCL Futhark.CodeGen.Backends.COpenCLFuthark.CodeGen.ImpGen.CUDAFuthark.CodeGen.Backends.CCUDAFuthark.VersionFuthark.Util.OptionsFuthark.Compiler.CLI&Futhark.CodeGen.Backends.GenericPython)Futhark.CodeGen.Backends.SequentialPython-Futhark.CodeGen.Backends.PyOpenCL.Boilerplate!Futhark.CodeGen.Backends.PyOpenCLFuthark.CLI.PythonFuthark.CLI.PyOpenCLFuthark.ActionsFuthark.CLI.OpenCLFuthark.CLI.MulticoreFuthark.CLI.CUDAFuthark.CLI.CFuthark.CLI.TestFuthark.CLI.RunFuthark.CLI.QueryFuthark.CLI.PkgFuthark.CLI.MiscFuthark.CLI.LiterateFuthark.CLI.DevFuthark.CLI.DatasetFuthark.CLI.DatacmpFuthark.CLI.CheckFuthark.CLI.BenchFuthark.CLI.AutotuneFuthark.Doc.GeneratorFuthark.CLI.DocFuthark.CLI.REPLData.Traversable	mapAccumLFuthark.Util.Loc
Futhark.IRImp	ScalarVarLanguage.Futhark.Parser.LexerLanguage.Futhark.Parser.ParserPaths_futharkbaseGHC.IntInt8Int16Int32Int64GHC.WordWord8Word16Word32Word64Ï srcloc-0.5.1.2-f781925e44f80634c4965a657ff9038e588772b96c42d2091251159878d1b38dData.LoclocOfØ mainland-pretty-0.7.0.1-9a249f17e5a6dcd215497b2ec5da9c25bd8994fed5a007c00ef8bdb3bd21b385Text.PrettyPrint.Mainland	hPutDocLnhPutDocputDocLnputDocprettyPragmaLazyTextdisplayPragmaLazyTextprettyLazyTextdisplayLazyTextprettyPragmaprettyPragmaSdisplayPragmaSprettyCompactprettyCompactSprettySdisplaySrenderCompactrendererrordocfaildoc	fillbreakfillwidthnestingcolumnnestindenthangalignlisttuple
enclosesepsemisepcommasep	punctuatesepcatstackspreadfolddocparensIfparensbracketsbraces
backquotesanglesdquotessquotesencloseflattengroup<|><//><+/></><+>	softbreaksoftlinelinesrclocemptyrparenlparenrbracketlbracketrbracelbraceranglelangledquotesquote	backquotespacesspacesemiequalsdotcommacolonstarlazyText
strictTextrationaldoublefloatintegerintstringcharbooltextDocRLineRPos	RLazyTextRTextRStringRCharREmptyRDocÑ megaparsec-9.0.1-ff67a57442a50219c84f552e17e80952f458f7dcd20280712ce5fc642c69c3c5Text.Megaparsec.ErrorerrorBundlePretty	mtl-2.2.2Control.Monad.Error.Class
throwErrorsrclocOfPosLocSrcLoc	locOfListLocatedÏ versions-5.0.0-635400c5871f3cb28f0ca8251987507a02affee0c5e0ffe8bc46a4c373b8da75Data.VersionsprettySemVer_svMeta	_svPreRel_svPatch_svMinor_svMajorSemVerStrDigitsVUnit
AstMetrics$fReadAstMetrics$fShowAstMetricsOptionArgument
NoArgumentRequiredArgumentOptionalArgumentOptionoptionLongNameoptionShortNameoptionArgumentoptionDescriptionoptionActiongenerateOptionParserpyFunctions	pyUtilitypyValuespyPanicpyTuningpyServer	BuildListunBuildListPkgManifestmanifestPkgPathmanifestRequiremanifestEndCommentsRequiredrequiredPkgrequiredPkgRevrequiredHash	Commentedcomments	commentedComment
PkgRevDepsPkgPathpkgPathFilePathisCommitVersioncommitVersionparseVersion
futharkPkgnewPkgManifestprettyPkgManifest
pkgRevDepspkgDiraddRequiredToManifestremoveRequiredFromManifestparsePkgManifestparsePkgManifestFromFileprettyBuildList$fMonoidPkgRevDeps$fSemigroupPkgRevDeps$fTraversableCommented$fFoldableCommented$fFunctorCommented$fEqBuildList$fShowBuildList$fShowPkgManifest$fEqPkgManifest$fShowRequired$fEqRequired$fShowCommented$fEqCommented$fShowPkgRevDepsEncodedString
UserStringnubOrd
mapAccumLMchunkchunksmaxinumdropAttakeLastdropLast	mapEithermaybeNth	maybeHeadsplitFromEndsplitAt3focusNthhashIntTextunixEnvironmentisEnvVarAtLeastfancyTerminalrunProgramWithExitCodedirectoryContents
roundFloat	ceilFloat
floorFloatroundDouble
ceilDoublefloorDoublelgammalgammaftgammatgammaftoPOSIX	fromPOSIXtrimpmapIOreadFileSafelyzEncodeStringatMostChars	EntryNameTypeNameVarName
CmdFailure
failureLog
failureMsgServer
withServer
cmdRestorecmdStorecmdCallcmdFree	cmdInputs
cmdOutputscmdClear	cmdReport$fEqCmdFailure$fOrdCmdFailure$fShowCmdFailurerearrangeShaperearrangeInverserearrangeReachrearrangeComposeisPermutationOftransposeIndexisMapTransposecolorinRedinGreeninBoldWrappedwrappedValueIntegralExpquotremdivmodsgndivUp$fIntegralExpWrapped$fNumWrapped$fEqWrapped$fOrdWrapped$fShowWrappedMonadLoggerlogMsgaddLogToLogtoLogLogtoText$fMonoidLog$fSemigroupLog$fToLogText	$fToLog[]$fMonadLoggerRWST$fMonadLoggerRWST0$fMonadLoggerWriterTMonadPkgRegistrygetPkgRegistryputPkgRegistrymodifyPkgRegistryPkgRegistryPkgInfopkgVersionspkgLookupCommit
PkgRevInfopkgRevZipballUrlpkgRevZipballDirpkgRevCommitpkgRevGetManifest
pkgRevTimeGetManifestgetManifestdownloadZipballlookupPkgRevpkgInfolookupPackagelookupPackageRevlookupNewestRev$fEqGetManifest$fShowGetManifest$fMonoidPkgRegistry$fSemigroupPkgRegistry$fEqPkgRevInfo$fShowPkgRevInfoPkgRevDepInfo	solveDepssolveDepsPure$fFunctorPkgOp$fShowRoughBuildListpretty
prettyTextprettyTextOneLineprettyOneLine	prettyDocprettyTupleapplyoneLinetextwrapannotnestedBlockshorten
commastackConvOpZExtSExtFPConvFPToUIFPToSIUIToFPSIToFPIToBBToICmpOpCmpEqCmpUltCmpUleCmpSltCmpSleFCmpLtFCmpLeCmpLltCmpLleBinOpAddFAddSubFSubMulFMulUDivUDivUpSDivSDivUpFDivFModUModSModSQuotSRemSMinUMinFMinSMaxUMaxFMaxShlLShrAShrAndOrXorPowFPowLogAndLogOrSafetyUnsafeSafeOverflowOverflowWrapOverflowUndefUnOpNot
ComplementAbsFAbsSSignumUSignumFSignum	PrimValueIntValue
FloatValue	BoolValue	UnitValueFloat32ValueFloat64Value	Int8Value
Int16Value
Int32Value
Int64ValuePrimTypeIntType	FloatTypeBoolUnitFloat32Float64allIntTypesallFloatTypesallPrimTypesintValueintValueTypevalueIntegral
floatValuefloatValueTypeprimValueTypeblankPrimValueallUnOps	allBinOps	allCmpOps
allConvOpsdoUnOpdoComplementdoAbsdoFAbs	doSSignum	doUSignumdoBinOpdoAdddoMuldoSDivdoSModdoPowdoConvOp
flipConvOpdoZExtdoSExtdoFPConvdoFPToUIdoFPToSIdoUIToFPdoSIToFPdoCmpOpdoCmpEqdoCmpUltdoCmpUledoCmpSltdoCmpSledoFCmpLtdoFCmpLeintToWord64
intToInt64	binOpType	cmpOpTypeunOpType
convOpTypeprimFunszeroIshoneIshnegativeIsh
zeroIshInt	oneIshIntprimBitSizeprimByteSizeintByteSizefloatByteSizecommutativeBinOp	convOpFunprettySigned$fPrettyIntType$fPrettyFloatType$fPrettyPrimType$fBoundedPrimType$fEnumPrimType$fPrettyIntValue$fPrettyFloatValue$fOrdFloatValue$fEqFloatValue$fPrettyPrimValue$fPrettyUnOp$fOrdOverflow$fEqOverflow$fPrettyBinOp$fPrettyCmpOp$fPrettyConvOp
$fEqConvOp$fOrdConvOp$fShowConvOp	$fEqCmpOp
$fOrdCmpOp$fShowCmpOp	$fEqBinOp
$fOrdBinOp$fShowBinOp
$fEqSafety$fOrdSafety$fShowSafety$fShowOverflow$fEqUnOp	$fOrdUnOp
$fShowUnOp$fEqPrimValue$fOrdPrimValue$fShowPrimValue$fShowFloatValue$fEqIntValue$fOrdIntValue$fShowIntValue$fEqPrimType$fOrdPrimType$fShowPrimType$fEqFloatType$fOrdFloatType$fShowFloatType$fEnumFloatType$fBoundedFloatType$fEqIntType$fOrdIntType$fShowIntType$fEnumIntType$fBoundedIntTypeconstituent
whitespacelexemekeyword
pPrimValue
pFloatTypepIntType	pPrimTypeInternalErrorErrorCompilerErrorExternalError
ErrorClassCompilerBugCompilerLimitationexternalErrorexternalErrorSinternalErrorScompilerBugcompilerLimitationcompilerBugScompilerLimitationS$fShowCompilerError$fExceptionInternalError$fShowInternalError$fEqErrorClass$fOrdErrorClass$fShowErrorClassEntrymkEntry
buildTable$fShowRowTemplateVNameNameCommutativityNoncommutativeCommutative
Uniqueness	NonuniqueUniquedefaultEntryPointnameToStringnameFromString
nameToTextnameFromTextlocStr	locStrRelprettyStacktracebaseTagbaseName
baseStringquotepquote$fPrettyUniqueness$fMonoidUniqueness$fSemigroupUniqueness$fMonoidCommutativity$fSemigroupCommutativity$fPrettyName
$fOrdVName	$fEqVName$fShowVName
$fShowName$fEqName	$fOrdName$fIsStringName$fSemigroupName$fEqCommutativity$fOrdCommutativity$fShowCommutativity$fEqUniqueness$fOrdUniqueness$fShowUniquenessErrorMsgPartErrorString
ErrorInt32
ErrorInt64ErrorMsgPatElemTPatElempatElemName
patElemDecSliceDimIndexDimFixDimSliceParam	paramNameparamDecSubExpConstantVarCertificatesunCertificatesIdent	identName	identTypeDietConsumeObserveObservePrimDeclExtTypeDeclTypeExtTypeTypeTypeBasePrimAccArrayMemNoUniquenessSpaceIdSpaceDefaultSpaceScalarSpace
ArrayShape	shapeRank	stripDims
subShapeOfRankExtShapeExtSizeExtFreeShape	ShapeBase	shapeDimsdimFixsliceIndices	sliceDims	unitSlicefixSlice
sliceSliceerrorMsgArgTypes$fMonoidShapeBase$fSemigroupShapeBase$fTraversableShapeBase$fFoldableShapeBase$fFunctorShapeBase$fTraversableExt$fFoldableExt$fFunctorExt$fMonoidRank$fSemigroupRank$fArrayShapeRank$fMonoidNoUniqueness$fSemigroupNoUniqueness$fMonoidCertificates$fSemigroupCertificates$fArrayShapeShapeBase$fArrayShapeShapeBase0$fBifoldableTypeBase$fBifunctorTypeBase$fBitraversableTypeBase
$fOrdIdent	$fEqIdent$fTraversableParam$fFunctorParam$fFoldableParam$fTraversableDimIndex$fFoldableDimIndex$fFunctorDimIndex$fTraversablePatElemT$fFoldablePatElemT$fFunctorPatElemT$fTraversableErrorMsgPart$fFoldableErrorMsgPart$fFunctorErrorMsgPart$fIsStringErrorMsgPart$fTraversableErrorMsg$fFoldableErrorMsg$fFunctorErrorMsg$fIsStringErrorMsg$fEqErrorMsg$fOrdErrorMsg$fShowErrorMsg$fEqErrorMsgPart$fOrdErrorMsgPart$fShowErrorMsgPart$fOrdPatElemT$fShowPatElemT$fEqPatElemT$fEqDimIndex$fOrdDimIndex$fShowDimIndex
$fOrdParam$fShowParam	$fEqParam$fShowIdent$fShowTypeBase$fEqTypeBase$fOrdTypeBase$fShowSpace	$fEqSpace
$fOrdSpace$fShowSubExp
$fEqSubExp$fOrdSubExp$fEqCertificates$fOrdCertificates$fShowCertificates$fEqDiet	$fOrdDiet
$fShowDiet$fEqNoUniqueness$fOrdNoUniqueness$fShowNoUniqueness
$fShowRank$fEqRank	$fOrdRank$fEqExt$fOrdExt	$fShowExt$fEqShapeBase$fOrdShapeBase$fShowShapeBaseIsValuevalueconstantintConst
floatConst$fIsValueFloatValue$fIsValueIntValue$fIsValuePrimValue$fIsValueBool$fIsValueFloat$fIsValueDouble$fIsValueWord64$fIsValueWord32$fIsValueWord16$fIsValueWord8$fIsValueInt64$fIsValueInt32$fIsValueInt16$fIsValueInt8FixExtfixExtSetTypesetTypeDeclExtTypeddeclExtTypeOfExtTyped	extTypeOf	DeclTyped
declTypeOfTypedtypeOf
rankShaped	arrayRank
arrayShapesetArrayShapeexistential
uniquenessuniquestaticShapesstaticShapes1arrayOf
arrayOfRowarrayOfShapesetArrayDimssetOuterSize
setDimSizesetOuterDimsetDim	peelArray
stripArray	shapeSize	arrayDimsarrayExtDims	arraySize
arraysSizerowTypeprimTypeelemTypetransposeTyperearrangeTypemapOnExtType	mapOnTypediet	subtypeOf
subtypesOftoDeclfromDeclisExtisFreeextractShapeContextshapeContexthasStaticShapegeneraliseExtTypesexistentialiseExtTypesshapeExtMappingint8int16int32int64float32float64
$fTyped(,)$fTypedPatElemT$fTypedParam$fTypedIdent$fTypedTypeBase$fTypedTypeBase0$fDeclTypedParam$fDeclTypedTypeBase$fSetTypePatElemT$fSetType(,)$fSetTypeTypeBase
$fFixExt()$fFixExtExt
$fFixExt[]$fFixExtShapeBase$fFixExtTypeBase$fDeclExtTypedTypeBase$fExtTypedTypeBase	IsRetTypeprimRetTypeapplyRetType
IsBodyTypeprimBodyTypeexpectedTypes$fIsBodyTypeTypeBase$fIsRetTypeTypeBaseDecorationsLetDecExpDecBodyDec
FParamInfo
LParamInfoRetType
BranchTypeOpProg
progConstsprogFunsEntryPointTypeTypeUnsigned
TypeOpaque
TypeDirect
EntryPointFunDeffunDefEntryPointfunDefAttrs
funDefNamefunDefRetTypefunDefParams
funDefBodyLParamFParamLambdaLambdaTlambdaParams
lambdaBodylambdaReturnTypeExpIfSortIfNormal
IfFallbackIfEquivIfDec	ifReturnsifSortLoopFormForLoop	WhileLoopExpTBasicOpApplyIfDoLoopWithAccOpaqueArrayLitAssertIndexUpdateConcatCopyManifestIota	ReplicateScratchReshape	RearrangeRotate	UpdateAccShapeChange	DimChangeDimCoercionDimNewBodyBodyTbodyDecbodyStms
bodyResultResultStmsStmLet
stmPatternstmAuxstmExpStmAuxstmAuxCertsstmAuxAttrs	stmAuxDecPatternPatternTpatternContextElementspatternValueElementsAttrsunAttrsAttrAttrAtomAttrComponeAttrinAttrswithoutAttrsoneStmstmsFromList
stmsToListstmsHead$fIsStringAttr$fTraversablePatternT$fFoldablePatternT$fFunctorPatternT$fMonoidPatternT$fSemigroupPatternT$fSemigroupStmAux$fTraversableDimChange$fFoldableDimChange$fFunctorDimChange$fEqDimChange$fEqProg	$fOrdProg
$fShowProg$fEqEntryPointType$fShowEntryPointType$fOrdEntryPointType	$fEqIfDec$fShowIfDec
$fOrdIfDec
$fEqIfSort$fShowIfSort$fOrdIfSort$fEqBasicOp$fOrdBasicOp$fShowBasicOp$fOrdDimChange$fShowDimChange$fOrdStmAux$fShowStmAux
$fEqStmAux$fOrdPatternT$fShowPatternT$fEqPatternT
$fOrdAttrs$fShowAttrs	$fEqAttrs$fMonoidAttrs$fSemigroupAttrs	$fOrdAttr
$fShowAttr$fEqAttr$fOrdFunDef$fShowFunDef
$fEqFunDef$fOrdLambdaT$fShowLambdaT$fEqLambdaT$fOrdLoopForm$fShowLoopForm$fEqLoopForm	$fOrdExpT
$fShowExpT$fEqExpT	$fEqBodyT$fShowBodyT
$fOrdBodyT$fEqStm	$fShowStm$fOrdStmnewDimnewDimsnewShapeshapeCoercereshapeOuterreshapeInnershapeCoercionfuseReshapeinformReshapereshapeIndexunflattenIndexflattenIndex
sliceSizes	paramTypeparamDeclType
paramIdentpatElemIdentpatElemTypesetPatElemLorepatternElementspatternIdentspatternContextIdentspatternValueIdentspatternNamespatternContextNamespatternValueNamespatternTypespatternValueTypespatternSizebasicPattern
PrettyLore	ppExpLoreppTuple'$fPrettyDimIndex$fPrettyDimChange$fPrettyEntryPointType$fPrettyErrorMsg$fPrettyBasicOp$fPrettyParam$fPrettyPatElemT$fPrettyPatternT$fPrettyAttr$fPrettyCertificates$fPrettySubExp$fPrettyIdent$fPrettyTypeBase$fPrettyTypeBase0$fPrettyTypeBase1$fPrettySpace$fPrettyShapeBase$fPrettyExt$fPrettyShapeBase0$fPrettyCommutativity$fPrettyNoUniqueness$fPrettyVName$fPrettyProg$fPrettyFunDef$fPrettyLambdaT$fPrettyExpT$fPrettyStm$fPrettyBodyT$fPrettySeqExtendedScope	SameScopeScopedscopeOf
LocalScope
localScopeHasScope
lookupType
lookupInfoaskScope	asksScopeScopeNameInfoLetName
FParamName
LParamName	IndexName	inScopeOfscopeOfPatternscopeOfPatElemscopeOfLParamsscopeOfFParams	castScopeextendedScope$fTypedNameInfo$fHasScopeloreRWST$fHasScopeloreRWST0$fHasScopeloreExceptT$fHasScopeloreReaderT$fLocalScopeloreRWST$fLocalScopeloreRWST0$fLocalScopeloreReaderT$fLocalScopeloreExceptT$fScopedloreLambdaT$fScopedloreLoopForm$fScopedlore(,)$fScopedloreFunDef$fScopedloreStm$fScopedloreSeq$fScopedlore[]$fHasScopeloreExtendedScope$fFunctorExtendedScope$fApplicativeExtendedScope$fMonadExtendedScope$fMonadReaderMapExtendedScope$fShowNameInfoWalkerwalkOnSubExp
walkOnBodywalkOnVNamewalkOnRetTypewalkOnBranchTypewalkOnFParamwalkOnLParamwalkOnOpMappermapOnSubExp	mapOnBody
mapOnVNamemapOnRetTypemapOnBranchTypemapOnFParammapOnLParammapOnOpidentityMappermapExpMmapExpidentityWalkerwalkExpMTypedOpopType
subExpTypemapType
primOpType
expExtTypeexpExtTypeSize$fHasScopeloreFeelBad$fApplicativeFeelBad$fFunctorFeelBad$fTypedOp()FreeDecprecomputedFreeInfreeIn'FVNamesnamesIntMapnameInnamesFromListnamesToListoneNamenamesIntersectionnamesIntersectnamesSubtractmapNamesfvBindfvNamefvNamesfreeInStmsAndResfreeInboundInBody
boundByStmboundByStmsboundByLambda$fPrettyNames$fMonoidNames$fSemigroupNames
$fOrdNames$fSemigroupFV
$fMonoidFV$fFreeInIfDec$fFreeInStmAux$fFreeInAttrs$fFreeInCertificates$fFreeInPatternT$fFreeInDimIndex$fFreeInDimChange$fFreeInLoopForm$fFreeInPatElemT$fFreeInParam$fFreeInTypeBase$fFreeInPrimType$fFreeInExt$fFreeInShapeBase$fFreeInSpace$fFreeInSubExp$fFreeInIdent$fFreeInVName$fFreeInMaybe$fFreeInBool$fFreeInNames$fFreeInSeq
$fFreeIn[]$fFreeIn(,,,)$fFreeIn(,,)$fFreeIn(,)$fFreeInInt
$fFreeIn()
$fFreeInFV$fFreeDecNames$fFreeDecMaybe$fFreeDec[]$fFreeDec(,)$fFreeDec()$fFreeInStm$fFreeInExpT$fFreeInBodyT$fFreeInLambdaT$fFreeInFunDef	$fEqNames$fShowNamesFloatExpfromRational'IntExpNumExpfromInteger'fromBoolExpTPrimExpuntypedPrimExpLeafExpValueExpBinOpExpCmpOpExpUnOpExp	ConvOpExpFunExpisInt8isInt16isInt32isInt64isBoolisF32isF64primExpSizeAtLeastconstFoldPrimExp.&&..||..<..<=..==..>..>=..&..|..^..>>..<<.sExtzExtevalPrimExpprimExpTypecoerceIntPrimExptruefalsebNotsMax32sMin32sMax64sMin64sExt32sExt64zExt32zExt64fMin64fMax64leafExpTypes$fPrettyPrimExp$fFreeInPrimExp$fTraversablePrimExp$fFoldablePrimExp$fFunctorPrimExp$fPrettyTPrimExp$fFloatingTPrimExp$fFloatingTPrimExp0$fFreeInTPrimExp$fTraversableTPrimExp$fFoldableTPrimExp$fFunctorTPrimExp$fNumTPrimExp$fNumExpDouble$fNumExpFloat$fNumExpInt64$fNumExpInt32$fNumExpInt16$fNumExpInt8$fIntegralExpTPrimExp$fIntExpInt64$fIntExpInt32$fIntExpInt16$fIntExpInt8$fFractionalTPrimExp$fFloatExpDouble$fFloatExpFloat$fEqTPrimExp$fOrdTPrimExp$fShowTPrimExp$fEqPrimExp$fOrdPrimExp$fShowPrimExpSubstitutable
SubstitutesubstituteNamesSubstitutions$fSubstituteFV$fSubstituteTPrimExp$fSubstitutePrimExp$fSubstituteDimIndex$fSubstituteDimChange$fSubstituteIdent$fSubstituteTypeBase$fSubstitutePrimType$fSubstituteNames$fSubstituteExt$fSubstituteShapeBase$fSubstitute()$fSubstituteRank$fSubstituteCertificates$fSubstitutePatternT$fSubstituteParam$fSubstituteStmAux$fSubstituteAttrs$fSubstitutePatElemT$fSubstituteSubExp$fSubstituteVName$fSubstituteBool$fSubstituteMaybe$fSubstitute(,,,)$fSubstitute(,,)$fSubstitute(,)$fSubstituteSeq$fSubstitute[]$fSubstituteNameInfo$fSubstituteLambdaT$fSubstituteBodyT$fSubstituteStm$fSubstituteExpTSizeHeuristicplatformName
deviceTypeheuristicSizeheuristicValue	WhichSizeLockstepWidth	NumGroups	GroupSizeTileSizeRegTileSize	Threshold
DeviceInfo
DeviceType	DeviceCPU	DeviceGPUsizeHeuristicsTable$fPrettyDeviceInfopPrimExpleastGeneralGeneralization
NumThreadsCountunCount	SizeClassSizeThreshold	SizeGroupSizeNumGroupsSizeTileSizeRegTileSizeLocalMemorySizeBespoke
KernelPathsizeDefault$fPrettySizeClass$fTraversableCount$fFoldableCount$fFunctorCount	$fEqCount
$fOrdCount$fShowCount
$fNumCount$fIntegralExpCount$fFreeInCount$fPrettyCount$fSubstituteCount$fEqSizeClass$fOrdSizeClass$fShowSizeClassVNameSourcenewNameblankNameSourcenewNameSource$fMonoidVNameSource$fSemigroupVNameSource$fLiftLiftedRepVNameSource$fEqVNameSource$fOrdVNameSourceMonadFreshNamesgetNameSourceputNameSourcemodifyNameSourcenewNameFromStringnewVNamenewIdent	newIdent'newParam$fMonadFreshNamesExceptT$fMonadFreshNamesMaybeT$fMonadFreshNamesWriterT$fMonadFreshNamesWriterT0$fMonadFreshNamesReaderT$fMonadFreshNamesRWST$fMonadFreshNamesRWST0$fMonadFreshNamesStateT$fMonadFreshNamesStateT0
RenameableRenamerenameRenameM
renameProg	renameExp	renameStm
renameBodyrenameLambdarenamePatternrenameSomethingsubstituteRenamerenamingStms$fRenameDimIndex
$fRename()$fRenameExt$fRenameShapeBase$fRenameRank$fRenameNames$fRenameTypeBase$fRenamePrimType$fRenameStmAux$fRenameAttrs$fRenameCertificates$fRenamePatElemT$fRenamePatternT$fRenameParam$fRenameSubExp$fRenameIdent$fRenameBool$fRenameMaybe$fRename(,,)$fRename(,)
$fRename[]$fRenameVName$fRenameLambdaT$fRenameExpT$fRenameStm$fRenameBodyT$fRenameFunDef$fFunctorRenameM$fApplicativeRenameM$fMonadRenameM$fMonadFreshNamesRenameM$fMonadReaderRenameEnvRenameMASTLoreexpTypesFromPatternIsOpsafeOpcheapOpASTConstraintsisBuiltInFunctionbuiltInFunctions	asBasicOpsafeExp
subExpVars	subExpVarcommutativeLambdaentryPointSizedefAuxstmCertscertifyexpExtTypesFromPatternattrsForAssert$fIsOp()CanBeAliasedOpWithAliasesremoveOpAliasesaddOpAliases
AliasTable	AliasedOp	opAliasesconsumedInOp	AliasesOf	aliasesOfAliasedbodyAliasesconsumedInBodysubExpAliases
expAliasesconsumedInStmconsumedInExpconsumedByLambdapatternAliaseslookupAliases$fAliasesOfPatElemT$fAliasesOfNames$fAliasedOp()$fCanBeAliased()Usages
UsageTablewithoutlookupusedexpand
isConsumed
isInResultisUsedDirectlyisSizeusagesusageconsumedUsageinResultUsage	sizeUsage
sizeUsages
usageInStm$fMonoidUsages$fSemigroupUsages$fMonoidUsageTable$fSemigroupUsageTable$fEqUsageTable$fShowUsageTable
$fEqUsages$fOrdUsages$fShowUsages	RephraserrephraseExpLorerephraseLetBoundLorerephraseFParamLorerephraseLParamLorerephraseBodyLorerephraseRetTyperephraseBranchType
rephraseOprephraseProgrephraseFunDefrephraseExprephraseStmrephrasePatternrephrasePatElemrephraseBodyrephraseLambdaMetricsM	OpMetrics	opMetricsseeninsideprogMetrics
stmMetricslambdaMetrics$fMonoidCountMetrics$fSemigroupCountMetrics$fOpMetrics()$fOpMetricsMaybe$fMonadMetricsM$fApplicativeMetricsM$fFunctorMetricsM!$fMonadWriterCountMetricsMetricsMDependenciesdataDependenciesfindNecessaryForReturnedPasspassNamepassDescriptionpassFunctionPassMrunPassM
liftEitherliftEitherMpassLongOptionparPass'intraproceduralTransformationWithConstsintraproceduralTransformation$fMonadFreshNamesPassM$fMonadLoggerPassM$fFunctorPassM$fApplicativePassM$fMonadPassMMonadBinderLore	mkExpDecMmkBodyMmkLetNamesMaddStmaddStmscollectStms
certifyingBindablemkExpPatmkExpDecmkBody
mkLetNamesattributingauxingletBindmkLetmkLet'letBindNamescollectStms_bodyBind
insertStms	insertStmBinderBinderT	BinderOps	mkExpDecBmkBodyBmkLetNamesB
runBinderTrunBinderT_runBinderT'runBinderT'_	runBinder
runBinder_runBodyBinder$fMonadErroreBinderT$fMonadWriterwBinderT$fMonadStatesBinderT$fMonadReaderrBinderT$fMonadBinderBinderT$fLocalScopeloreBinderT$fHasScopeloreBinderT$fMonadFreshNamesBinderT$fMonadTransBinderT$fFunctorBinderT$fMonadBinderT$fApplicativeBinderTAliasesAndConsumedBodyAliasingConsumedInExp
VarAliasesAliasDec	unAliasesAliasesremoveScopeAliasesremoveProgAliasesremoveFunDefAliasesremoveExpAliasesremoveStmAliasesremoveLambdaAliasesremovePatternAliasesaddAliasesToPatternmkAliasedBodymkPatternAliasesmkBodyAliasesmkStmsAliasestrackAliasesmkAliasedLetStm$fBinderOpsAliases$fASTLoreAliases$fBindableAliases$fPrettyLoreAliases$fAliasedAliases$fFreeDecAliasDec$fPrettyAliasDec$fFreeInAliasDec$fSubstituteAliasDec$fRenameAliasDec$fOrdAliasDec$fEqAliasDec$fMonoidAliasDec$fSemigroupAliasDec$fAliasesOf(,)$fDecorationsAliases$fShowAliasDec	CanBeWiseOpWithWisdomremoveOpWisdom	ExpWisdom	VarWisdomvarWisdomAliasesWiseremoveScopeWisdomaddScopeWisdomremoveFunDefWisdomremoveStmWisdomremoveLambdaWisdomremoveBodyWisdomremoveExpWisdomremovePatternWisdomaddWisdomToPattern
mkWiseBodymkWiseLetStmmkWiseExpDec$fPrettyVarWisdom$fFreeInVarWisdom$fSubstituteVarWisdom$fRenameVarWisdom$fRenameExpWisdom$fSubstituteExpWisdom$fFreeDecExpWisdom$fFreeInExpWisdom$fFreeDecBodyWisdom$fFreeInBodyWisdom$fSubstituteBodyWisdom$fRenameBodyWisdom$fCanBeWise()$fBindableWise$fAliasedWise$fPrettyLoreWise$fASTLoreWise$fDecorationsWise$fEqBodyWisdom$fOrdBodyWisdom$fShowBodyWisdom$fEqExpWisdom$fOrdExpWisdom$fShowExpWisdom$fEqVarWisdom$fOrdVarWisdom$fShowVarWisdomaliasAnalysis
analyseFunanalyseBodyanalyseStms
analyseExpanalyseLambdaToExptoExp	letSubExpletExp
letInPlace
letSubExps	letTupExp
letTupExp'eSubExpeIfeIf'eBinOpeCmpOpeConvOpeSignumeCopyeBodyeLambdaeRoundToMultipleOfeSliceArrayeOutOfBoundseWriteArrayeBlankasIntSasIntZ	foldBinOpeAllbinOpLambdacmpOpLambdamkLambdasliceDim	fullSlicesliceAtfullSliceNumisFullSliceifCommon
resultBodyresultBodyMinsertStmsM	buildBody
buildBody_	mapResultinstantiateShapesinstantiateShapes'removeExistentialssimpleMkLetNamestoSubExp$fToExpVName$fToExpSubExp	CheckablecheckExpLorecheckBodyLorecheckFParamLorecheckLParamLorecheckLetBoundLorecheckRetTypematchPattern
primFParammatchReturnTypematchBranchTypematchLoopResultCheckableOpcheckOpTypeM	TypeError	ErrorCaseUnexpectedTypeReturnTypeErrorDupDefinitionErrorDupParamErrorDupPatternErrorInvalidPatternErrorUnknownVariableErrorUnknownFunctionErrorParameterMismatchSlicingErrorBadAnnotationReturnAliasedUniqueReturnAliased
NotAnArrayPermutationErrorbadcontextmessageconsumecheckOpWithalternativeconsumeOnlyParamsbinding	lookupVarrequirerequireI	checkProgcheckSubExp	checkStms	checkBodycheckExpcheckSOACArrayArgs	checkTypecheckExtTypecheckStmmatchExtPatternmatchExtBranchTypeargType
argAliasesnoArgAliasescheckArgcheckLambdarequirePrimExp$fMonoidConsumption$fSemigroupConsumption$fHasScopeAliasesTypeM$fShowTypeError$fShowErrorCase$fMonadTypeM$fFunctorTypeM$fApplicativeTypeM$fMonadReaderEnvTypeM$fMonadWriterConsumptionTypeM$fMonadStateNamesTypeM$fShowConsumption$fEqOccurence$fShowOccurence	$fEqUsage
$fOrdUsage$fShowUsagePipelinePipelineConfigpipelineVerbosepipelineValidateAction
actionNameactionDescriptionactionProcedureFutharkM	Verbosity
NotVerboseVerboseVeryVerboserunFutharkMrunPipelineonePasspasses$fMonadLoggerFutharkM$fMonadFreshNamesFutharkM$fCategoryTYPEPipeline$fApplicativeFutharkM$fFunctorFutharkM$fMonadFutharkM!$fMonadErrorCompilerErrorFutharkM $fMonadStateFutharkStateFutharkM$fMonadReaderFutharkEnvFutharkM$fMonadIOFutharkM$fEqVerbosity$fOrdVerbosityIndexSubstitutionsIndexSubstitutionsubstituteIndicesprimExpFromExpprimExpFromSubExpMprimExpFromSubExppe32le32pe64le64f32pef32lef64pef64lereplaceInPrimExpMreplaceInPrimExpsubstituteInPrimExpprimExpSlicesubExpSlice$fToExpTPrimExp$fToExpPrimExp
TypeLookup	VarLookupapplySimpleRulesIxFun
ixfunLMADsixfunContigLMAD
lmadOffsetlmadDimsLMADDimldStrideldRotateldShapeldPermldMonMonotonicityIncDecUnknownsubstituteInIxFunisDirectshapeindex
iotaOffsetiotapermuterotateslicereshaperankrebaselinearWithOffsetrearrangeWithOffsetisLinearexistentializecloseEnough$fPrettyMonotonicity$fTraversableLMAD$fFoldableLMAD$fFunctorLMAD$fFreeInLMAD$fRenameLMAD$fSubstituteLMAD$fPrettyLMAD$fTraversableIxFun$fFoldableIxFun$fFunctorIxFun$fFreeInIxFun$fRenameIxFun$fSubstituteIxFun$fPrettyIxFun$fShowIxFun	$fEqIxFun
$fShowLMAD$fEqLMAD$fShowLMADDim$fEqLMADDim$fShowMonotonicity$fEqMonotonicityIndexOpindexOp
entryDepthentryIsSizeIndexedIndexedArraySymbolTable	loopDepthbindingsavailableAtClosestLoopsimplifyMemory	fromScopetoScopedeepenindexedAddCertsentryStmentryFParamentryLetBoundDecelem	lookupStm	lookupExplookupBasicOplookupSubExplookupLoopVarlookupLoopParam	availableindex'insertFParamsinsertLParaminsertLoopMergeinsertLoopVarhideCertified$fFreeInIndexed$fTypedEntry$fMonoidSymbolTable$fSemigroupSymbolTable$fIndexOp()IndexResultSubExpResultsimplifyIndexingRuleBookBottomUpRuleBottomUpRuleOpBottomUpRuleDoLoopBottomUpRuleIfBottomUpRuleBasicOpBottomUpRuleGenericBottomUpTopDownRuleTopDownRuleOpTopDownRuleDoLoopTopDownRuleIfTopDownRuleBasicOpTopDownRuleGenericTopDownSimplificationRuleRuleGenericRuleBasicOpRuleIf
RuleDoLoopRuleOpRuleSimplifySkipRuleMcannotSimplify	liftMayberuleBooktopDownSimplifyStmbottomUpSimplifyStm$fMonadBinderRuleM$fMonoidRules$fSemigroupRules$fMonoidRuleBook$fSemigroupRuleBook$fFunctorRuleM$fApplicativeRuleM$fMonadRuleM$fMonadFreshNamesRuleM$fHasScopeloreRuleM$fLocalScopeloreRuleMfoldClosedFormloopClosedForm	loopRulesbasicOpRulesstandardRulesremoveUnnecessaryCopySimplifiablesimplifySimplifiableLoreSimplifiedBody	BlockPredSimpleM
SimplifyOp	SimpleOps	mkExpDecSmkBodySprotectHoistedOpSopUsageSsimplifyOpSEnvenvRulesenvHoistBlockersHoistBlockersblockHoistParblockHoistSeqblockHoistBranchisAllocationnoExtraHoistBlockers
neverHoistemptyEnvbindableSimpleOps
runSimpleMasksEngineEnv	askVtablelocalVtable	enterLoopbindLParams	hoistStmsneverBlocksisFalseorIfisOpblockIfhasFree	isNotSafesimplifyBodysimplifyStmssimplifyLambdasimplifyLambdaNoHoistingsimplifyFun$fMonadFreshNamesSimpleM$fSimplifiableCertificates$fSimplifiableDimIndex$fSimplifiableTypeBase$fSimplifiablePrimType$fSimplifiableSpace$fSimplifiableExt$fSimplifiableShapeBase$fSimplifiableVName$fSimplifiable()$fSimplifiableSubExp$fSimplifiable[]$fSimplifiableMaybe$fSimplifiableInt$fSimplifiable(,,)$fSimplifiable(,)$fLocalScopeWiseSimpleM$fHasScopeWiseSimpleM$fApplicativeSimpleM$fFunctorSimpleM$fMonadSimpleM$fMonadReader(,)SimpleM$fMonadState(,,)SimpleMsimplifyPrimExpsimplifyExtPrimExpsimplifyProgsimplifySomethingcopyPropagateInProgcopyPropagateInStmscopyPropagateInFunSeq$fBinderOpsWise$fPrettyLoreSeq$fBinderOpsSeq$fBindableSeq$fCheckableSeq$fCheckableOpSeq$fASTLoreSeq$fDecorationsSeq
SOACMappermapOnSOACSubExpmapOnSOACLambdamapOnSOACVNameReduceredComm	redLambda
redNeutralScan
scanLambdascanNeutral
ScremaForm
StreamFormParallel
Sequential	StreamOrdInOrderDisorderHistOp	histWidthhistRaceFactorhistDesthistNeutralhistOpSOACStreamScatterHistScremascanResults
singleScan
redResultssingleReduce
scremaTypemkIdentityLambdaisIdentityLambdanilFnscanomapSOACredomapSOACscanSOAC
reduceSOACmapSOACisScanomapSOAC
isScanSOACisRedomapSOACisReduceSOAC	isMapSOACgroupScatterResultsgroupScatterResults'splitScatterResultsidentitySOACMappermapSOACMsoacTypetypeCheckSOACppScremappHist$fPrettyScan$fPrettyReduce$fPrettySOAC$fOpMetricsSOAC$fIndexOpSOAC
$fIsOpSOAC$fAliasedOpSOAC$fTypedOpSOAC$fCanBeWiseSOAC$fCanBeAliasedSOAC$fRenameSOAC$fSubstituteSOAC$fFreeInSOAC$fEqSOAC	$fOrdSOAC
$fShowSOAC$fEqScremaForm$fOrdScremaForm$fShowScremaForm
$fEqReduce$fOrdReduce$fShowReduce$fEqScan	$fOrdScan
$fShowScan$fEqStreamForm$fOrdStreamForm$fShowStreamForm$fEqStreamOrd$fOrdStreamOrd$fShowStreamOrd
$fEqHistOp$fOrdHistOp$fShowHistOpredomapToMapAndReducedissectScremasequentialStreamWholeArraypartitionChunkedFoldParametersSOACS$fPrettyLoreSOACS$fBinderOpsSOACS$fBindableSOACS$fCheckableSOACS$fCheckableOpSOACS$fASTLoreSOACS$fDecorationsSOACSTransformerFirstOrderLoretransformFunDeftransformConststransformStmRecursivelytransformSOACtransformLambdafirstOrderTransformiswimirwimrwimPossibleInternaliseMInternaliseEnv	envSubstsenvDoBoundsChecksenvSafeenvAttrsVarSubstitutionsFunInforunInternaliseMsubstitutingVarslookupSubst	addFunDeflookupFunction'lookupFunctionlookupConstbindFunctionbindConstantlocalConstsScopeassert$fMonoidInternaliseResult$fSemigroupInternaliseResult$fMonadBinderInternaliseM$fFunctorInternaliseM$fApplicativeInternaliseM$fMonadInternaliseM'$fMonadReaderInternaliseEnvInternaliseM($fMonadStateInternaliseStateInternaliseM$fMonadFreshNamesInternaliseM$fHasScopeSOACSInternaliseM$fLocalScopeSOACSInternaliseM	argShapesensureResultShapeensureResultExtShapeensureExtShapeensureShapeensureArgShapesHasSOACasSOACsoacOpsimpleSOACSsimplifySOACSsimplifyConstssimplifySOAC	soacRulesliftIdentityMappingremoveReplicateMappingsimplifyKnownIterationSOAC$fHasSOACWise$fEqArrayOp$fOrdArrayOp$fShowArrayOp	CallGraphisFunInCallGraphcallscalledByConstsallCalledBybuildCallGraphfindNoninlined	OpReturns	opReturns
FunReturnsBodyReturns
ExpReturns	MemReturnReturnsInBlockReturnsNewBlockMemBindArrayInMemBoundMemInfoMemPrimMemMemMemArrayMemAccExtIxFunMemOpAllocInnerAllocOpallocOpBranchTypeMem
RetTypeMem	LParamMem	FParamMem	LetDecMemisStaticIxFunexistentialiseIxFunnoUniquenessReturnsbodyReturnsToExpReturnsmatchFunctionReturnTypematchLoopResultMemmatchBranchReturnTypematchPatternToExplookupMemInfosubExpMemInfolookupArraySummarycheckMemInfobodyReturnsFromPattern
extReturns
varReturns
expReturns$fIndexOpMemOp$fCanBeWiseMemOp$fIsOpMemOp$fOpMetricsMemOp$fPrettyMemOp$fSubstituteMemOp$fRenameMemOp$fCanBeAliasedMemOp$fAliasedOpMemOp$fTypedOpMemOp$fFreeInMemOp$fAllocOpMemOp$fPrettyMemInfo$fSimplifiableMemInfo$fRenameMemInfo$fSubstituteMemInfo$fFreeInMemInfo$fDeclTypedMemInfo$fTypedMemInfo$fTypedMemInfo0$fFixExtMemInfo$fExtTypedMemInfo$fDeclExtTypedMemInfo$fSimplifiableMemBind$fFreeInMemBind$fPrettyMemBind$fSubstituteMemBind$fRenameMemBind$fOrdMemBind$fEqMemBind$fSimplifiableMemReturn$fFreeInMemReturn$fPrettyMemReturn$fFixExtMemReturn$fSubstituteMemReturn$fRenameMemReturn$fOrdMemReturn$fEqMemReturn$fIsBodyTypeMemInfo$fIsRetTypeMemInfo$fShowMemReturn$fShowMemBind$fEqMemInfo$fShowMemInfo$fOrdMemInfo	$fEqMemOp
$fOrdMemOp$fShowMemOpExpHintNoHintHint	SizeSubstopSizeSubst	opIsConstAllocMAllocEnvchunkMapaggressiveReuse
allocSpace	envConsts	allocInOpenvExpHints	Allocable	AllocatoraddAllocStmaskDefaultSpacedimAllocationSize	askConstsexpHintsarraySizeInBytesExpallocForArrayexplicitAllocationsGeneric explicitAllocationsInStmsGenericallocInStmsmkLetNamesB'mkLetNamesB''simplifiabledefaultExpHints$fSizeSubstMemOp$fSizeSubst()$fAllocatorlorePatAllocM$fAllocatortoloreAllocM$fMonadBinderAllocM$fApplicativeAllocM$fFunctorAllocM$fMonadAllocM$fMonadFreshNamesAllocM$fHasScopetoloreAllocM$fLocalScopetoloreAllocM$fMonadReaderAllocEnvAllocM$fApplicativePatAllocM$fFunctorPatAllocM$fMonadPatAllocM$fHasScopelorePatAllocM$fLocalScopelorePatAllocM$fMonadWriter[]PatAllocM$fMonadFreshNamesPatAllocM$fEqAllocStm$fOrdAllocStm$fShowAllocStmHasSegOp
SegOpLevelasSegOpsegOpSegOpMappermapOnSegOpSubExpmapOnSegOpLambdamapOnSegOpBodymapOnSegOpVNamemapOnSegOpLevelSegOpSegMapSegRedSegScanSegHistSegSpacesegFlat
unSegSpaceSegVirt	SegNoVirtSegNoVirtFullKernelResultReturnsWriteReturnsConcatReturnsTileReturnsRegTileReturnsResultManifestResultNoSimplifyResultMaySimplifyResultPrivate
KernelBodykernelBodyLorekernelBodyStmskernelBodyResultSegBinOpsegBinOpCommsegBinOpLambdasegBinOpNeutralsegBinOpShape	histShapeSplitOrderingSplitContiguousSplitStridedhistTypesegBinOpResultssegBinOpChunkskernelResultSubExpaliasAnalyseKernelBodyconsumedInKernelBodysegSpaceDimsscopeOfSegSpacesegLevelsegSpacetypeCheckSegOpidentitySegOpMapper	mapSegOpMsimplifySegOp
segOpRulessegOpReturns$fSimplifiableSplitOrdering$fRenameSplitOrdering$fSubstituteSplitOrdering$fFreeInSplitOrdering$fPrettySegBinOp$fSimplifiableKernelResult$fPrettyKernelResult$fRenameKernelResult$fSubstituteKernelResult$fFreeInKernelResult$fPrettyKernelBody$fRenameKernelBody$fSubstituteKernelBody$fFreeInKernelBody$fSimplifiableSegSpace$fPrettySegSpace$fIsOpSegOp$fIndexOpSegOp$fPrettySegOp$fOpMetricsSegOp$fAliasedOpSegOp$fTypedOpSegOp$fCanBeWiseSegOp$fCanBeAliasedSegOp$fFreeInSegOp$fRenameSegOp$fSubstituteSegOp	$fEqSegOp
$fOrdSegOp$fShowSegOp$fEqSegSpace$fOrdSegSpace$fShowSegSpace$fEqSegVirt$fOrdSegVirt$fShowSegVirt$fEqKernelResult$fShowKernelResult$fOrdKernelResult$fEqResultManifest$fShowResultManifest$fOrdResultManifest$fEqSegBinOp$fOrdSegBinOp$fShowSegBinOp$fEqSplitOrdering$fOrdSplitOrdering$fShowSplitOrdering$fEqKernelBody$fShowKernelBody$fOrdKernelBodyKernelInputkernelInputNamekernelInputTypekernelInputArraykernelInputIndices
MkSegLevelThreadRecommendationManyThreadsNoRecommendationDistLore
mkSegSpacesegRedsegScansegMapdummyDim	nonSegRedsegHist	mapKernelreadKernelInput$fShowKernelInput
KernelNestNestingsNestingnestingLetBoundnestingLoopLoopNesting
MapNestingloopNestingPatternloopNestingAuxloopNestingWidthloopNestingParamsAndArrsTargetsTarget	ppTargetssingleTargetouterTargetinnerTargetpushInnerTargetpopInnerTargettargetsScopescopeOfLoopNestingppLoopNesting
ppNestingssingleNestingpushInnerNestingletBindInInnerNestingppKernelNestinnermostKernelNestingpushKernelNestingpushInnerKernelNesting	newKernelkernelNestLoopsboundInKernelNestboundInKernelNestskernelNestWidthsconstructKernel
flatKerneltryDistributetryDistributeStm$fFreeInLoopNesting$fShowNesting$fShowLoopNesting
WithAccStmBranchSeqLoopinterchangeLoopsinterchangeBranchinterchangeWithAcc	DistNestTDistAccdistTargetsdistStmsDistEnvdistNest	distScopedistOnTopLevelStmsdistOnInnerMapdistOnSOACSStmsdistOnSOACSLambdadistSegLevelMapLoop
mapLoopStmaddStmsToAccaddStmToAcc	liftInnerrunDistNestTaddPostStmspostStm	inNestingbodyContainsParallelismlambdaContainsParallelismdistributeMapBodyStms
distributedistributeSingleStm
histKerneldetermineReduceOppermutationAndMissingdistributeMap$fMonoidPostStms$fSemigroupPostStms$fMonoidDistRes$fSemigroupDistRes$fMonadLoggerDistNestT$fLocalScopeloreDistNestT$fHasScopeloreDistNestT$fMonadFreshNamesDistNestT$fFunctorDistNestT$fApplicativeDistNestT$fMonadDistNestT$fMonadReaderDistEnvDistNestT$fMonadWriterDistResDistNestTSimplifyMemorysimpleGenericsimplifyProgGenericsimplifyStmsGenericMCOpParOpOtherOptypeCheckMCOpsimplifyMCOp$fOpMetricsMCOp$fPrettyMCOp$fIndexOpMCOp$fCanBeWiseMCOp$fCanBeAliasedMCOp$fAliasedOpMCOp$fTypedOpMCOp
$fIsOpMCOp$fFreeInMCOp$fRenameMCOp$fSubstituteMCOp$fEqMCOp	$fOrdMCOp
$fShowMCOpMCMem$fBinderOpsMCMem$fCheckableMCMem$fCheckableOpMCMem$fPrettyLoreMCMem$fOpReturnsMCMem$fASTLoreMCMem$fDecorationsMCMemMC$fHasSegOpWise$fHasSegOpMC$fPrettyLoreMC$fBinderOpsMC$fBindableMC$fCheckableMC$fCheckableOpMC$fASTLoreMC$fDecorationsMCHostOpSizeOp
SplitSpaceGetSize
GetSizeMax	CmpSizeLeCalcNumGroupsSegLevel	SegThreadSegGroupsegNumGroupssegGroupSizesegVirttypeCheckHostOp$fFreeInSegLevel$fRenameSegLevel$fSubstituteSegLevel$fSimplifiableSegLevel$fPrettySegLevel$fOpMetricsSizeOp$fPrettySizeOp$fFreeInSizeOp$fAliasedOpSizeOp$fTypedOpSizeOp$fIsOpSizeOp$fRenameSizeOp$fSubstituteSizeOp$fOpMetricsHostOp$fPrettyHostOp$fIndexOpHostOp$fCanBeWiseHostOp$fCanBeAliasedHostOp$fFreeInHostOp$fAliasedOpHostOp$fTypedOpHostOp$fIsOpHostOp$fRenameHostOp$fSubstituteHostOp
$fEqHostOp$fOrdHostOp$fShowHostOp
$fEqSizeOp$fOrdSizeOp$fShowSizeOp$fEqSegLevel$fOrdSegLevel$fShowSegLevelCSEInOp
performCSEperformCSEOnFunDefperformCSEOnStms$fCSEInOpSOAC$fCSEInOpMemOp$fCSEInOpSegOp$fCSEInOpMCOp$fCSEInOpHostOp$fCSEInOp()inlineFunctionsremoveDeadFunctionsSeqMemsimpleSeqMem$fBinderOpsSeqMem$fCheckableSeqMem$fCheckableOpSeqMem$fPrettyLoreSeqMem$fOpReturnsSeqMem$fASTLoreSeqMem$fDecorationsSeqMemexplicitAllocationsKernels$fHasSegOpKernels$fPrettyLoreKernels$fBinderOpsKernels$fBindableKernels$fCheckableKernels$fCheckableOpKernels$fASTLoreKernels$fDecorationsKernelsbabysitKernelsgetSize	segThreadinjectSOACSsoacsStmToKernelssoacsLambdaToKernelsscopeForSOACsscopeForKernelsextractMulticore$fMonadLoggerExtractM$fFunctorExtractM$fApplicativeExtractM$fMonadExtractM$fHasScopeMCExtractM$fLocalScopeMCExtractM$fMonadFreshNamesExtractM	streamRed	streamMapsegThreadCapped$fEqKernelSize$fOrdKernelSize$fShowKernelSizeintraGroupParallelise$fMonoidIntraAcc$fSemigroupIntraAcc$fMonadLoggerBinderTextractKernels$fMonadFreshNamesDistribM$fFunctorDistribM$fApplicativeDistribM$fMonadDistribM$fHasScopeKernelsDistribM$fLocalScopeKernelsDistribM$fMonadStateStateDistribM$fMonadLoggerDistribMVarianceTableTileMsegMap2DsegMap3DsegScatter2DisTileableRedomapvarianceInStmssinkKernelssinkMCLowerUpdateDesiredUpdate
updateName
updateTypeupdateCertificatesupdateSourceupdateIndicesupdateValuelowerUpdatelowerUpdateKernels$fFunctorDesiredUpdate$fShowLoopResultSummary$fShowDesiredUpdateinPlaceLoweringKernelsinPlaceLoweringSeqinPlaceLoweringMC$fMonoidBottomUp$fSemigroupBottomUp$fHasScopeAliasesForwardingM$fMonadFreshNamesForwardingM$fMonadForwardingM$fApplicativeForwardingM$fFunctorForwardingM$fMonadReaderTopDownForwardingM $fMonadWriterBottomUpForwardingM"$fMonadStateVNameSourceForwardingMmmBlkRegTilingdoRegTiling3D	tileLoops$fMonoidPrivStms$fSemigroupPrivStmssimplifyKernelssimplifyKernelOpunstreamKernels
unstreamMC
KernelsMemsimpleKernelsMem$fBinderOpsKernelsMem$fCheckableKernelsMem$fCheckableOpKernelsMem$fPrettyLoreKernelsMem$fOpReturnsKernelsMem$fASTLoreKernelsMem$fDecorationsKernelsMemsimplifySeq
simplifyMCsimplifyKernelsMemsimplifySeqMemsimplifyMCMemallocInKernelBodyallocInBinOpLambda$fSizeSubstSegOp$fSizeSubstMCOpexplicitAllocationsInStms$fSizeSubstHostOpexpandAllocations$fApplicativeOffsetM$fFunctorOffsetM$fMonadOffsetM$fHasScopeKernelsMemOffsetM$fLocalScopeKernelsMemOffsetM$fMonadError[]OffsetMdoubleBufferKernelsdoubleBufferMC$fLocalScopeloreDoubleBufferM$fHasScopeloreDoubleBufferM$fShowDoubleBuffer$fFunctorDoubleBufferM$fApplicativeDoubleBufferM$fMonadDoubleBufferM$fMonadReaderEnvDoubleBufferM$fMonadFreshNamesDoubleBufferM
parseSOACSparseSeqparseSeqMemparseKernelsparseKernelsMemparseMC
parseMCMemNotSOACInputViewLEmptyL:>ViewFEmptyF:<ArrayTransformsArrayTransformReshapeOuterReshapeInnernoTransformsnullTransformsviewfviewl|><|transformFromExpvarInput
identInput
isVarInputisVarishInputaddTransformaddInitialTransforms
inputArray	inputTypeinputRowType	inputRanktransformRowstransposeInputinputs	setInputslambda	setLambdatoSOACfromExpsoacToStream$fSubstituteArrayTransform$fSubstituteArrayTransforms$fMonoidArrayTransforms$fSemigroupArrayTransforms$fPrettyInput$fSubstituteInput$fShowNotSOAC$fShowInput	$fEqInput
$fOrdInput$fEqArrayTransforms$fOrdArrayTransforms$fShowArrayTransforms$fShowArrayTransform$fEqArrayTransform$fOrdArrayTransformfuseMapsfuseRedomapmergeReduceOpsMapNestnestingParamNamesnestingResultnestingReturnTypenestingWidthparamsfromSOAC$fShowMapNest$fEqNesting$fOrdNestingFusedKerfsoacinplace	fusedVarsfusedConsumedkernelScopeoutputTransformoutNameskerAuxtransformOutput	arrInputsattemptFusion$fShowFusedKer$fFunctorTryFusion$fApplicativeTryFusion$fAlternativeTryFusion$fMonadTryFusion$fMonadFailTryFusion$fMonadFreshNamesTryFusion$fHasScopeSOACSTryFusion$fLocalScopeSOACSTryFusion	fuseSOACs$fShowError$fMonoidFusedRes$fSemigroupFusedRes$fHasScopeSOACSFusionGM$fMonadFreshNamesFusionGM$fMonadFusionGM$fApplicativeFusionGM$fFunctorFusionGM$fMonadErrorErrorFusionGM$fMonadStateVNameSourceFusionGM$fMonadReaderFusionGEnvFusionGM$fEqKernName$fOrdKernName$fShowKernNamestandardPipelinekernelsPipelinesequentialPipelinesequentialCpuPipelinegpuPipeline
mcPipelinemulticorePipelineBytesElementsArgExpArgMemArgTExpExpLeaf
VolatilityVolatileNonvolatileCode:>>:ForWhile
DeclareMemDeclareScalarDeclareArrayAllocateWrite	SetScalarSetMemCall
DebugPrintArrayContentsArrayValues
ArrayZerosFunction	FunctionTfunctionEntryfunctionOutputfunctionInputfunctionBodyfunctionResultfunctionArgsExternalValueOpaqueValueTransparentValue	ValueDesc
ArrayValueScalarValue
Signedness	Constants
constsDecl
constsInit	FunctionsDefinitions	defConstsdefFunsMemParamScalarParamDimSizeMemSizelexicalMemoryUsagecalledFuncselementsbyteswithElemTypevarvi32vi64
declaredIn$fFreeInValueDesc$fPrettyValueDesc$fFreeInExternalValue$fPrettyExternalValue$fPrettyArrayContents$fFreeInExpLeaf$fPrettyExpLeaf$fFreeInArg$fPrettyArg$fFreeInCode$fTraversableCode$fFoldableCode$fFunctorCode$fPrettyCode$fMonoidCode$fSemigroupCode$fTraversableFunctionT$fFoldableFunctionT$fFunctorFunctionT$fPrettyFunctionT$fFreeInFunctions$fTraversableFunctions$fFoldableFunctions$fFunctorFunctions$fPrettyFunctions$fMonoidFunctions$fSemigroupFunctions$fPrettyConstants$fPrettyDefinitions$fShowFunctionT
$fShowCode	$fShowArg$fEqExpLeaf$fShowExpLeaf$fEqVolatility$fOrdVolatility$fShowVolatility$fShowArrayContents$fShowExternalValue$fEqValueDesc$fShowValueDesc$fEqSignedness$fShowSignednesssetDefaultSpacetransposeArgsmapTransposeFunctionProgram$fFreeInSequential$fPrettySequentialKernelTargetTargetOpenCL
TargetCUDAOpenCLLaunchKernelKernelSafety
SafetyNoneSafetyCheap
SafetyFull	KernelArg	ValueKArgMemKArgSharedMemoryKArg
KernelName
FailureMsgfailureErrorfailureBacktraceopenClProgramopenClPreludeopenClKernelNamesopenClUsedTypesopenClSizesopenClFailureshostDefinitionsnumFailureParams$fPrettyOpenCL$fEqKernelTarget$fShowOpenCL$fEqKernelSafety$fOrdKernelSafety$fShowKernelSafety$fShowMayFail$fShowKernelArg
SchedulingDynamicStaticParallelTask	task_codeflatTidSchedulerInfo	nsubtasks
iterations
schedulingAtomicOp	AtomicAdd	AtomicSub	AtomicAndAtomicOr	AtomicXor
AtomicXchgAtomicCmpXchg	MulticoreSegopParLoopAtomic$fFreeInAtomicOp$fPrettyScheduling$fFreeInSchedulerInfo$fPrettySchedulerInfo$fFreeInMulticore$fFreeInParallelTask$fPrettyMulticore$fPrettyParallelTask$fShowAtomicOp
AtomicFAdd
AtomicSMax
AtomicSMin
AtomicUMax
AtomicUMinKernelOp
GetGroupId
GetLocalIdGetLocalSizeGetGlobalSizeGetGlobalIdGetLockstepWidthBarrierMemFence
LocalAlloc	ErrorSyncFence
FenceLocalFenceGlobal	KernelUse	ScalarUse	MemoryUseConstUseKernel
kernelBody
kernelUseskernelNumGroupskernelGroupSize
kernelNamekernelFailureTolerant
CallKernelKernelConstExpKernelConst	SizeConst
KernelCode$fPrettyKernelConst$fPrettyKernelUse$fFreeInKernelOp$fPrettyKernelOp$fPrettyKernel$fFreeInKernel$fShowKernel$fShowKernelOp$fShowFence$fEqKernelUse$fOrdKernelUse$fShowKernelUse$fEqKernelConst$fOrdKernelConst$fShowKernelConstTransposeArgsTransposeTypeTransposeNormalTransposeLowWidthTransposeLowHeightTransposeSmallmapTransposeKernel$fEqTransposeType$fOrdTransposeType$fShowTransposeTypeintTypeToCTypeprimTypeToCTypesignedPrimTypeToCType
tupleFieldfunNamedefaultMemBlockType	arrayName
opaqueNameexternalValueTypecproductcsumcIntOpscFloat32OpscFloat64OpscFloatConvOpscFloat32FunscFloat64FunsstorageSizestoreValueHeaderloadValueHeader$fToExpPrimValue$fToExpFloatValue$fToExpIntValue$fToIdentVName$fToIdentName
serverDefscliDefsCPartscHeadercUtilscCLIcServercLib	CompilerM
OperationsopsWriteScalaropsReadScalaropsAllocateopsDeallocateopsCopyopsStaticArrayopsMemoryTypeopsCompileropsErroropsCallopsFatMemoryopsCriticalCallCompilerStaticArray
Deallocate
ReadScalarWriteScalar
MemoryTypePointerQualsErrorCompiler
OpCompilerHeaderSection	ArrayDecl
OpaqueDecl	EntryDeclMiscDeclInitDeclCompilerStatecompNameSrccompUserStatedefaultOperationscontextContentscontextFinalInitsrunCompilerMgetUserStatemodifyUserStateatInitinNewFunctionitemitems	fatMemorycacheMem	publicDef
publicDef_
headerDecllibDecl	earlyDeclcontextFieldprofileReportonClearstmstmsdecl
publicNamecontextType
memToCTyperawMemCType
fatMemTyperawMemcopyMemoryDefaultSpace	asLibraryasExecutableasServercompileProgcachingMemory
compileFuncompilePrimValuewriteScalarPointerWithQualsreadScalarPointerWithQualscompileExpToName
compileExpcompilePrimExpcompileCode
blockScope$fMonoidCompilerAcc$fSemigroupCompilerAcc$fMonadFreshNamesCompilerM$fFunctorCompilerM$fApplicativeCompilerM$fMonadCompilerM"$fMonadStateCompilerStateCompilerM!$fMonadReaderCompilerEnvCompilerM!$fMonadWriterCompilerAccCompilerM$fEqHeaderSection$fOrdHeaderSectionkernelsToCUDAkernelsToOpenCL$fEqOpsModegenerateBoilerplatefailureSwitchcopyDevToDevcopyDevToHostcopyHostToDevcopyScalarToDevcopyScalarFromDevprofilingEventkernelRuntime
kernelRunscostCentreReportsizeLoggingCodecommonOptionsprofilingEnclosurePyProg
PyClassDefClassPyFunDefDefPyExceptCatchPyStmtTryWithAssignAssignOpRaiseReturnImportClassDefEscapePyArg
ArgKeywordPyIdxIdxRangeIdxExpPyExpIntegerFloatStringRawStringLiteralCondCastTupleListFieldDictNone$fPrettyPyExp$fPrettyPyArg$fPrettyPyIdx$fPrettyPyExcept$fPrettyPyClassDef$fPrettyPyFunDef$fPrettyPyStmt$fPrettyPyProg
$fEqPyProg$fShowPyProg$fEqPyClassDef$fShowPyClassDef
$fEqPyStmt$fShowPyStmt$fEqPyFunDef$fShowPyFunDef$fEqPyExcept$fShowPyExcept	$fEqPyArg$fShowPyArg	$fEqPyExp$fShowPyExp	$fEqPyIdx$fShowPyIdxpreludeProgBaseprogDocprogDecsDecBaseValDecTypeDecSigDecModDecOpenDecLocalDec	ImportDecModParamBaseModParammodParamNamemodParamTypemodParamAbsmodParamLocationModBindBaseModBindmodName	modParamsmodSignaturemodExpmodDocmodLocation
ModExpBaseModVar	ModParens	ModImportModDecsModApply
ModAscript	ModLambdaSigBindBaseSigBindsigNamesigExpsigDocsigLocTypeRefBaseTypeRef
SigExpBaseSigVar	SigParensSigSpecsSigWithSigArrowSpecBaseValSpecTypeAbbrSpecTypeSpecModSpecIncludeSpecspecNamespecTypeParamsspecTypespecDocspecLocationTypeParamBaseTypeParamDimTypeParamType
LiftednessUnlifted
SizeLiftedLiftedTypeBindBaseTypeBind	typeAliastypeLiftedness
typeParamstypeExptypeDoctypeBindLocationValBindBaseValBindvalBindEntryPointvalBindNamevalBindRetDeclvalBindRetTypevalBindTypeParamsvalBindParamsvalBindBody
valBindDocvalBindAttrsvalBindLocationentryParamsentryReturn	EntryType	entryTypeentryAscribed
DocCommentPatternBaseTuplePatternRecordPatternPatternParensIdWildcardPatternAscription
PatternLitPatternConstrPatLit	PatLitIntPatLitFloat
PatLitPrimLoopFormBaseForInCaseBaseCasePat	FieldBaseRecordFieldExplicitRecordFieldImplicitExpBaseLiteralIntLitFloatLit	StringLitParens
QualParensTupLit	RecordLitProjectNegateConstrRecordUpdate	OpSectionOpSectionLeftOpSectionRightProjectSectionIndexSectionAscriptAppExpAppRes
appResType	appResExt
AppExpBaseCoerceRangeLetPatLetFunLetWithMatch
SizeBindersizeNamesizeLocQualName	qualQualsqualLeafDimIndexBaseInclusivenessDownToExclusiveToInclusiveUpToExclusiveBacktickPlusMinusTimesDivideModQuotRemShiftRShiftLBandBorEqualNotEqualLessLeqGreaterGeq	PipeRightPipeLeft	IdentBaseidentSrcLocValue
RecordDietFuncDietTypeDeclBaseTypeDecldeclaredTypeexpandedType
TypeArgExpTypeArgExpDimTypeArgExpTypeTypeExpTEVarTETupleTERecordTEArrayTEUniqueTEApplyTEArrowTESumDimExpDimExpNamedDimExpConst	DimExpAny	ValueType
StructTypePatternTypeAliasingAlias
AliasBound	AliasFreealiasVarTypeArg
TypeArgDimTypeArgTypeScalarScalarTypeBaseTypeVarRecordSumArrowPNameNamedUnnamed	typeQualstypeLeaf	ShapeDeclDimDeclNamedDimConstDimAnyDimArrayDim	unifyDimsAttrInfoIsPrimValue	primValueSignedValueUnsignedValueSignedUnsignedInfounInfoNoInfoShowableunifyShapestypeNameFromQualNamequalNameFromTypeNametypeParamName$fTraversableNoInfo$fFoldableNoInfo$fFunctorNoInfo$fTraversableInfo$fFoldableInfo$fFunctorInfo$fIsPrimValueBool$fIsPrimValueDouble$fIsPrimValueFloat$fIsPrimValueWord64$fIsPrimValueWord32$fIsPrimValueWord16$fIsPrimValueWord8$fIsPrimValueInt64$fIsPrimValueInt32$fIsPrimValueInt16$fIsPrimValueInt8$fIsPrimValueInt$fArrayDim()$fMonoidShapeDecl$fSemigroupShapeDecl$fFunctorShapeDecl$fTraversableShapeDecl$fFoldableShapeDecl$fOrdTypeName$fEqTypeName
$fOrdPName	$fEqPName$fFoldableTypeArg$fFunctorTypeArg$fTraversableTypeArg$fBifoldableScalarTypeBase$fBifunctorScalarTypeBase$fBitraversableScalarTypeBase$fTraversableInclusiveness$fFoldableInclusiveness$fFunctorInclusiveness$fLocatedInclusiveness$fTraversableQualName$fFoldableQualName$fFunctorQualName$fOrdQualName$fOrdQualName0$fEqQualName$fEqQualName0$fLocatedTypeArgExp$fLocatedTypeExp$fArrayDimDimDecl$fTraversableDimDecl$fFoldableDimDecl$fFunctorDimDecl$fLocatedTypeDeclBase$fLocatedIdentBase$fOrdIdentBase$fEqIdentBase$fLocatedSizeBinder$fLocatedPatternBase$fLocatedDocComment$fShowableInfovn$fShowableNoInfovn$fLocatedTypeParamBase$fTraversableTypeParamBase$fFoldableTypeParamBase$fFunctorTypeParamBase$fLocatedTypeBindBase$fLocatedCaseBase$fLocatedFieldBase$fLocatedExpBase$fLocatedAppExpBase$fLocatedValBindBase$fLocatedTypeRefBase$fLocatedSigExpBase$fLocatedSpecBase$fLocatedSigBindBase$fLocatedModParamBase$fLocatedDecBase$fLocatedModBindBase$fLocatedModExpBase$fEqTypeParamBase$fOrdTypeParamBase$fShowTypeParamBase$fEqLiftedness$fOrdLiftedness$fShowLiftedness$fShowEntryPoint$fShowEntryType$fShowDocComment
$fEqPatLit$fOrdPatLit$fShowPatLit
$fEqAppRes$fOrdAppRes$fShowAppRes$fEqSizeBinder$fOrdSizeBinder$fShowSizeBinder$fShowDimDecl$fShowTypeExp$fShowTypeArgExp$fShowDimExp$fShowQualName$fEqInclusiveness$fOrdInclusiveness$fShowInclusiveness$fEnumBinOp$fBoundedBinOp	$fEqValue$fShowValue	$fEqAlias
$fOrdAlias$fShowAlias$fEqTypeArg$fOrdTypeArg$fShowTypeArg$fEqScalarTypeBase$fOrdScalarTypeBase$fShowScalarTypeBase$fShowPName$fShowTypeName$fEqShapeDecl$fOrdShapeDecl$fShowShapeDecl$fEqAttrInfo$fOrdAttrInfo$fShowAttrInfo$fEqInfo	$fOrdInfo
$fShowInfo
$fEqNoInfo$fOrdNoInfo$fShowNoInfo$fShowProgBase$fShowDecBase$fShowModParamBase$fShowModBindBase$fShowModExpBase$fShowSigBindBase$fShowTypeRefBase$fShowSigExpBase$fShowSpecBase$fShowTypeBindBase$fShowValBindBase$fOrdPatternBase$fEqPatternBase$fShowPatternBase$fOrdLoopFormBase$fEqLoopFormBase$fShowLoopFormBase$fOrdCaseBase$fEqCaseBase$fShowCaseBase$fOrdFieldBase$fEqFieldBase$fShowFieldBase$fOrdExpBase$fEqExpBase$fShowExpBase$fOrdAppExpBase$fEqAppExpBase$fShowAppExpBase$fOrdDimIndexBase$fEqDimIndexBase$fShowDimIndexBase$fShowIdentBase$fOrdTypeDeclBase$fEqTypeDeclBase$fShowTypeDeclBase$fOrdTypeArgExp$fOrdTypeArgExp0$fEqTypeArgExp$fEqTypeArgExp0$fOrdTypeExp$fOrdTypeExp0$fEqTypeExp$fEqTypeExp0$fOrdDimExp$fOrdDimExp0
$fEqDimExp$fEqDimExp0$fOrdDimDecl$fEqDimDeclUncheckedCaseUncheckedProgUncheckedSpecUncheckedDecUncheckedValBindUncheckedPatternUncheckedTypeParamUncheckedSigExpUncheckedModExpUncheckedExpUncheckedDimIndexUncheckedIdentUncheckedTypeDeclUncheckedTypeExpUncheckedType	IntrinsicIntrinsicMonoFunIntrinsicOverloadedFunIntrinsicPolyFunIntrinsicTypeIntrinsicEqualityDimPosPosImmediatePosParam	PosReturn
nestedDimsnoSizesanySizestraverseDimsmustBeExplicitInTypemustBeExplicitaliasestoStructuraltoStruct
fromStructtupleRecordisTupleRecordareTupleFieldstupleFieldstupleFieldNames
sortFieldssortConstrsisTypeParamisSizeParamcombineTypeShapes	matchDimssetUniqueness
setAliases
addAliases	valueTypefoldFunTypeunfoldFunTypevalBindTypeSchemefunTypetypeVars	orderZeropatternDimNamestypeDimNamespatternOrderZero
patternMappatternTypepatternStructTypepatternParamnamesToPrimTypes
intrinsicsmaxIntrinsicTagqualNamequalifytypeNameprogImports
decImportsprogModuleTypesidentifierReferenceleadingOperator
$fEqDimPos$fOrdDimPos$fShowDimPosAnnotunAnnotIsNamepprName
prettyName$fPrettyLiftedness$fPrettyPatLit$fPrettyAttrInfo$fPrettyTypeArg$fPrettyShapeDecl$fPrettyShapeDecl0$fPrettyShapeDecl1$fPrettyValue$fPrettyTypeParamBase$fPrettySizeBinder$fPrettyIdentBase$fPrettyQualName$fPrettyTypeArgExp$fPrettyTypeExp$fPrettyScalarTypeBase$fPrettyShapeDecl2$fPrettyDimExp$fPrettyDimDecl$fIsNameName$fIsNameVName$fPrettyModBindBase$fPrettyModParamBase$fPrettySigBindBase$fPrettySigExpBase$fPrettySpecBase$fPrettyValBindBase$fPrettyTypeBindBase$fPrettyModExpBase$fPrettyDecBase$fPrettyProgBase$fPrettyPatternBase$fPrettyLoopFormBase$fPrettyCaseBase$fPrettyFieldBase$fPrettyExpBase$fPrettyAppExpBase$fPrettyDimIndexBase$fPrettyTypeDeclBase$fAnnotInfo$fAnnotNoInfoTokenIDINDEXINGQUALINDEXING	QUALPARENUNOPQUALUNOPSYMBOLCONSTRUCTORPROJ_INTFIELDINTLIT	STRINGLITI8LITI16LITI32LITI64LITU8LITU16LITU32LITU64LITFLOATLITF32LITF64LITCHARLITCOLONCOLON_GT	BACKSLASH
APOSTROPHEAPOSTROPHE_THEN_HATAPOSTROPHE_THEN_TILDEBACKTICKHASH_LBRACKETDOTTWO_DOTSTWO_DOTS_LTTWO_DOTS_GT
THREE_DOTSLPARRPARRPAR_THEN_LBRACKETLBRACKETRBRACKETLCURLYRCURLYCOMMA
UNDERSCORERIGHT_ARROWEQUASTERISKNEGATELTHHATTILDEPIPEIFTHENELSELETLOOPINFORDOWITHASSERTTRUEFALSEWHILEINCLUDEIMPORTENTRYTYPEMODULEVALOPENLOCALMATCHCASEDOCEOFLscanTokensText
ParseErrorparseDecOrExpIncrMparseFutharkparseExpparseModExp	parseType
parseValueparseValuesCase
ScalarType	TypeParamStructTypeArgSpecSigExpModExp	envVtableenvTypeTableenvSigTableenvModTable
envNameMapNameMapBoundVTypeBindingTypeAbbrMTymtyAbsmtyModFunSig	funSigAbs	funSigMod	funSigMtyModEnvModFunTySet	NamespaceTerm	SignatureImports
FileModulefileAbsfileEnvfileProg
ImportNamemkInitialImportmkImportFromincludeToFilePathincludeToString$fLocatedImportName$fPrettyNamespace$fPrettyEnv$fPrettyMod$fPrettyMTy$fMonoidEnv$fSemigroupEnv	$fShowEnv	$fShowMTy	$fShowMod$fShowFunSig$fShowBoundV$fEqTypeBinding$fShowTypeBinding$fEqNamespace$fOrdNamespace$fShowNamespace$fEnumNamespace$fEqImportName$fOrdImportName$fShowImportNameCtxctxEnv
ctxImportsInterpreterError	ValuePrim
ValueArrayValueRecordExtOp
ExtOpTrace
ExtOpBreak
ExtOpErrorBreakReason
BreakPointBreakNaN
StackFramestackFrameLocstackFrameCtxisEmptyArrayprettyEmptyArray	fromTupletypeCheckerEnv
initialCtxinterpretExpinterpretDecinterpretImportinterpretFunction$fPrettyShape$fShowInterpreterError$fPrettyIndexing$fFunctorExtOp$fLocatedStackFrame$fMonadEvalM$fApplicativeEvalM$fFunctorEvalM$fMonadFreeExtOpEvalM$fMonadReader(,)EvalM$fMonadStateMapEvalM	$fEqShape$fShowShape$fFunctorShape$fFoldableShape$fTraversableShapeinternaliseParamTypesinternaliseLoopParamTypeinternaliseReturnTypeinternaliseLambdaReturnTypeinternaliseEntryReturnTypeinternaliseTypeinternaliseSumTypeinternalisedTypeSizeinternalisePrimTypeinternalisePrimValue$fFunctorInternaliseTypeM$fApplicativeInternaliseTypeM$fMonadInternaliseTypeM%$fMonadStateTypeStateInternaliseTypeMInternaliseLambdainternaliseMapLambdainternaliseStreamMapLambdainternaliseFoldLambdainternaliseStreamLambdainternalisePartitionLambdaNameSet	unNameSetmemberidentsizesizesfreeVarspatternVars$fMonoidNameSet$fSemigroupNameSet$fShowNameSetbindingFParamsbindingLoopParamsbindingLambdaParamsPutValueputValueGetValuegetValueMismatchCompoundValueCompound
ValueTuple	ValueAtom
Word8ValueWord16ValueWord32ValueWord64ValueVector
mkCompoundprettyValueTypeNoDims
valueShape
valueElems
readValuescompareValues$fBinaryValue$fPrettyCompound$fTraversableCompound$fFoldableCompound$fFunctorCompound$fPrettyValueType$fShowMismatch$fGetValueWord64$fGetValueWord32$fGetValueWord16$fGetValueWord8$fGetValueInt64$fGetValueInt32$fGetValueInt16$fGetValueInt8$fGetValueBool$fGetValue[]$fPutValueByteString$fPutValueText$fPutValue[]$fPutValuePrimValue$fPutValueWord8$fEqValueType$fOrdValueType$fShowValueType$fEqCompound$fOrdCompound$fShowCompoundparsePrimTypeparsePrimValueEvalBuiltinExpValueScriptValueTypeSTValueSTFunScriptValueSValueSFunConst	ServerVarFuncFuncFutFuncBuiltinScriptServerwithScriptServerscriptValueType
valueToExpevalExpgetExpValueevalExpToGround	varsInExp	freeValue$fPrettyFunc$fPrettyExp$fTraversableScriptValue$fFoldableScriptValue$fFunctorScriptValue$fPrettyScriptValueType$fShowValOrVar$fEqScriptValueType$fShowScriptValueType	$fShowExp
$fShowFunc
FutharkExeSuccessSuccessValuesSuccessGenerateValuesExpectedResultSucceedsRunTimeFailureValuesInFile	GenValuesTestRunrunTagsrunInputrunExpectedResultrunIndexrunDescriptionWarningTestExpectedWarningStructureTestStructurePipelineKernelsPipelineSOACSPipelineSequentialCpuPipelineGpuPipeline
NoPipelineExpectedErrorAnyError	ThisErrorInputOutputsiosEntryPointiosTestRuns
TestActionCompileTimeFailureRunCasesProgramTesttestDescriptiontestTags
testActiontestSpecFromFiletestSpecFromFileOrDietestSpecsFromPathstestSpecsFromPathsOrDievaluesFromByteString	getValuesgetValuesBSwithValuesFilecheckValueTypestestRunReferenceOutputgetExpectedResult
binaryNamecompileProgram
runProgramreadResultsensureReferenceOutputdetermineTuningcheckResult$fShowExpectedError$fShowWarningTest$fEqFutharkExe$fOrdFutharkExe$fShowFutharkExe$fShowProgramTest$fShowTestAction$fShowInputOutputs$fShowTestRun$fShowSuccess$fShowExpectedResult$fShowValues$fShowGenValue$fShowStructureTest$fShowStructurePipelineCompileOptionscompFutharkcompBackendcompOptions
RunOptionsrunRuns
runTimeout
runVerboserunResultActionBenchResult
DataResult
runResults	memoryMapstdErr	RunResultrunMicrosecondsencodeBenchResultsdecodeBenchResultsbenchmarkDatasetprepareBenchmarkProgram$fFromJSONRunResult$fToJSONRunResult$fFromJSONResult$fToJSONResult$fFromJSONDataResults$fToJSONDataResults$fFromJSONBenchResults$fToJSONBenchResults$fEqBenchResult$fShowBenchResult$fEqDataResult$fShowDataResult
$fEqResult$fShowResult$fEqRunResult$fShowRunResultASTMappableastMap	ASTMappermapOnExp	mapOnNamemapOnQualNamemapOnStructTypemapOnPatternTypebareExp$fASTMappable(,,)$fASTMappable(,)$fASTMappableNonEmpty$fASTMappable[]$fASTMappableInfo$fASTMappableCaseBase$fASTMappableFieldBase$fASTMappablePatternBase$fASTMappableSizeBinder$fASTMappableIdentBase$fASTMappableTypeDeclBase$fASTMappableTypeBase$fASTMappableTypeBase0$fASTMappableAppRes$fASTMappableSet$fASTMappableAlias$fASTMappableDimIndexBase$fASTMappableTypeParamBase$fASTMappableDimDecl$fASTMappableDimExp$fASTMappableTypeArgExp$fASTMappableTypeExp$fASTMappableLoopFormBase$fASTMappableExpBase$fASTMappableAppExpBaseAtPosAtNameBoundTo	BoundTermBoundModuleBoundModuleType	BoundTypeboundLocatPos	$fEqAtPos$fShowAtPos$fEqDef	$fShowDef$fEqBoundTo$fShowBoundTotransformProg$fMonadFreshNamesLiftM$fFunctorLiftM$fApplicativeLiftM$fMonadLiftM$fMonadReaderEnvLiftM$fMonadStateLiftStateLiftM$fMonoidScope$fSemigroupScope$fApplicativeTransformM$fFunctorTransformM$fMonadTransformM$fMonadFreshNamesTransformM$fMonadReaderEnvTransformM$fMonadWriterDListTransformM$fShowScope$fEqSizeSubst$fOrdSizeSubst$fShowSizeSubst$fFunctorDefM$fApplicativeDefM$fMonadDefM$fMonadReader(,)DefM$fMonadWriterSeqDefM$fMonadFreshNamesDefM$fShowBinding$fShowStaticVal$fShowExtExp	unmatched$fPrettyMatch	$fEqMatch
$fOrdMatch$fShowMatch
$fEqConstr$fOrdConstr$fShowConstrWarningsanyWarningssingleWarningsingleWarning'$fPrettyWarnings$fMonoidWarnings$fSemigroupWarningsMonadTypeCheckerwarnnewIDbindNameMapbindValcheckQualName	lookupModcheckNamedDim	typeErrorImportTableNotesaNoteunappliedFunctorunknownVariableunknownTypeunderscoreUserunTypeMaskEnvaskImportName	lookupMTylookupImportlocalEnv	checkName
bindSpacedqualifyTypeVars	badOnLeftanySignedTypeanyUnsignedTypeanyFloatTypeanyNumberTypeanyPrimTypeintrinsicsNameMaptopLevelNameMap$fPrettyNote$fPrettyNotes$fPrettyTypeError$fMonadErrorTypeErrorTypeM$fMonadTypeCheckerTypeM$fMonadReaderContextTypeM$fMonadStateTypeStateTypeM$fSemigroupNotes$fMonoidNotes
applySubstTypeSubsSubst	PrimSubstunifyTypesUsubuniqueOfcheckTypeDeclcheckTypeExpcheckForDuplicateNamescheckTypeParamstypeParamToArgsubstFromAbbr	unionSubssubstTypesAny$fFunctorSubst$fSubstitutablePatternBase$fSubstitutableShapeDecl$fSubstitutableDimDecl$fSubstitutableTypeBase$fSubstitutableTypeBase0$fShowSubst
MonadUnifygetConstraintsputConstraintsmodifyConstraints
newTypeVar	newDimVarcurLevel
matchError
unifyErrorRigidityRigidNonrigidRigidSourceRigidArgRigidRet	RigidLoop
RigidSlice
RigidRange
RigidBound	RigidCond
RigidUnifyRigidOutOfScopeConstraints
ConstraintNoConstraint	ParamType
Overloaded	HasFieldsEquality
HasConstrs	ParamSizeSizeUnknowableSizeLevelUsageBreadCrumbsnoBreadCrumbshasNoBreadCrumbsmkUsagemkUsage'dimNotesnormTypeFullynormPatternTypeinstantiateEmptyArrayDimsunifyexpectmustBeOneOfequalityTypezeroOrderTypearrayElemTypemustHaveConstrmustHaveFieldanyDimOnMismatchunifyMostCommonmkTypeVarNamedoUnification$fPrettyBreadCrumb$fPrettyBreadCrumbs$fLocatedUsage$fPrettyUsage$fLocatedConstraint$fMonadUnifyUnifyM$fMonadUnifyM$fFunctorUnifyM$fApplicativeUnifyM$fMonadState(,)UnifyM$fMonadErrorTypeErrorUnifyM$fEqRigidity$fOrdRigidity$fShowRigidity$fShowConstraint$fEqRigidSource$fOrdRigidSource$fShowRigidSource$fPrettyMonoSize$fEqMonoSize$fFunctorMonoM$fApplicativeMonoM$fMonadMonoM$fMonadReaderEnvMonoM$fMonadWriterSeqMonoM$fMonadFreshNamesMonoM$fShowMonoSizeinternaliseProgcheckOneExpcheckFunDef$fLocatedOccurence$fSemigroupTermScope
$fOrdFName	$fEqFName$fPrettyChecking$fMonadTypeCheckerTermTypeM$fMonadUnifyTermTypeM$fPrettyUnmatched$fFunctorUnmatched$fShowUnmatched$fMonadTermTypeM$fFunctorTermTypeM$fApplicativeTermTypeM$fMonadReaderTermEnvTermTypeM$fMonadWriter[]TermTypeM"$fMonadStateTermTypeStateTermTypeM$fMonadErrorTypeErrorTermTypeM$fEqSizeSource$fOrdSizeSource$fShowSizeSource$fShowFName$fShowTermScope$fShowValBinding$fShowLocalitynewNamesForMTy	refineEnv	matchMTysapplyFunctorcheckDeccheckModExp
initialEnvBasisbasisImportsbasisNameSource
basisRoots
emptyBasisreadUntypedLibraryreadLibraryreadImportsFutharkConfigfutharkVerbosefutharkWarnfutharkWerrorfutharkSafefutharkEntryPointsfutharkTypeChecknewFutharkConfig	dumpErrorrunCompilerOnProgramrunPipelineOnProgramreadProgramreadUntypedProgramreadProgramOrDiereadUntypedProgramOrDiehandleWarningstoExp'
toInt64Exp	toBoolExpTVImpMVTableVarEntryArrayVarMemVarAccVarScalarEntryentryScalarTypeMemEntryentryMemSpace
ArrayEntryentryArrayLocationentryArrayElemTypeMemLocationmemLocationNamememLocationShapememLocationIxFunopsExpCompileropsOpCompileropsStmsCompileropsCopyCompileropsAllocCompilersAllocCompilerCopyCompilerExpCompilerStmsCompilersubImpM_subImpMcollectcollect'commentemitemitFunctionhasFunctioncompileBodycompileBody'compileLoopBodycompileStmsdefCompileStmsdefCompileExpdFParamsdLParamsdPrimVoldPrim_dPrimdPrimV_dPrimVdPrimVEdScopedArrayeverythingVolatilemkTVtvSizetvExptvVarlocalDefaultSpaceaskFunctionnewVNameForFun
nameForFunlocalOps	getVTablelocalVTablelookupArraylookupMemory	lookupAccfullyIndexArrayfullyIndexArray'copyisMapTransposeCopycopyElementWisecopyDWIMcopyDWIMFixcompileAlloctypeSizeinBoundssForsWhilesCommentsIfsWhensUnlesssOpsDeclareMemsAlloc_sAllocsArraysArrayInMemsAllocArrayPermsAllocArraysStaticArraysWritesUpdate	sLoopNest<~~<--function$fHasScopeSOACSImpM$fMonadFreshNamesImpM$fFunctorImpM$fApplicativeImpM$fMonadImpM$fMonadStateImpStateImpM$fMonadReaderEnvImpM$fShowDestination$fShowValueDestination$fShowVarEntry$fShowScalarEntry$fShowMemEntry$fShowArrayEntry$fEqMemLocation$fShowMemLocationAtomicUpdate
AtomicPrim	AtomicCASAtomicLockingLockinglockingArraylockingIsUnlockedlockingToLocklockingToUnlocklockingMappingMulticoreGenHostEnvhostAtomics	hostLocksLocks
locksArray
locksCountAtomicBinOpsegOpStringgetSpacegetIterationDomaingetReturnParamsrenameSegBinOpcompileThreadResult
freeParamsgroupResultArraysdecideScheduling'decideSchedulingextractAllocationsrenameHistOpLambdaatomicUpdateLockingcompileSegScancompileSegRedcompileSegRed'compileSegMapcompileSegHistDoAtomicUpdateKernelConstantskernelGlobalThreadIdkernelLocalThreadIdkernelGroupIdkernelGlobalThreadIdVarkernelLocalThreadIdVarkernelGroupIdVarkernelNumThreadskernelWaveSizekernelThreadActivekernelLocalIdMapInKernelGenCallKernelGen	KernelEnvkernelAtomicskernelConstantskernelLocks
hostTargetCUDAprecomputeSegOpIDskeyWithEntryPoint
kernelLoop	groupLoopgroupCoverSpacecomputeThreadChunkSizeisActivegroupReduce	groupScanvirtualiseGroupssKernelThreadsKernelGroup
sReplicatesIotasCopycompileGroupResult	DoSegBody$fEqPassage$fOrdPassagecompileProgOpenCLcompileProgCUDAversionversionStringFunOptDescrmainWithOptionsCompilerMode	ToLibraryToExecutableToServerCompilerOptioncompilerMain$fEqCompilerMode$fOrdCompilerMode$fShowCompilerModeConstructorcompInitCompilerEnvenvOperations	envVarExpopsEntryOutputopsEntryInput
EntryInputEntryOutputemptyConstructor
simpleCallcompileName
compileDim	unpackDimcompilePrimTypecompilePrimTypeExtcompilePrimToNpcompilePrimToExtNp
compileVar$fMonadWriter[]CompilerM
openClInitmainprintActionprintAliasesActionmetricsActionimpCodeGenActionkernelImpCodeGenActionmulticoreImpCodeGenActioncompileCActioncompileOpenCLActioncompileCUDAActioncompileMulticoreAction$fOrdTestCase$fEqTestCase$fShowTestCase$fEqTestMode$fShowTestMode$fShowProgConfig$fEqTestResult$fShowTestResult$fMonadLoggerPkgM$fMonadPkgRegistryPkgM$fMonadFailPkgM$fMonadPkgM$fFunctorPkgM$fApplicativePkgM$fMonadIOPkgM$fMonadReaderPkgConfigPkgMmainImportsmainHashmainDataget$fPrettyDirective$fEqFailure$fOrdFailure$fShowFailure$fFunctorScriptM$fApplicativeScriptM$fMonadScriptM$fMonadErrorTextScriptM$fMonadFailScriptM$fMonadIOScriptM$fMonadStateStateScriptM$fShowBlock$fShowDirective$fShowVideoParams$fPrettyUntypedPassState $fRepresentationUntypedPassState$fRepresentationUntypedAction$fEqOutputFormat$fOrdOutputFormat$fShowOutputFormat$fEqSkipReason$fShowDatasetResultrenderFiles$fFunctorFutharkiM$fApplicativeFutharkiM$fMonadFutharkiM"$fMonadStateFutharkiStateFutharkiM$fMonadIOFutharkiM$fMonadErrorStopReasonFutharkiMGHC.Base	GHC.MaybeNothingGHC.IOFilePathData.FoldablemaximummapData.EitherpartitionEithersGHC.ListsplitAtÕ process-extras-0.7.4-280ba69104abeba468e375a9c9e344b98733890efa459f5819c10617bb83c362System.Process.ByteStringreadProcessWithExitCodeghc-prim	GHC.TypesIOLefttext-1.2.4.1Data.Text.InternalTextGHC.RealIntegraldisplaySLoc
displayLocdisplaySPos
displayPosunLocnoLocsrcspan<-->locEndlocStart
advancePoslinePosstartPosposCoffposColposLineposFileNoLoc
IsLocationfromPosfromLocRelocatablerelocControl.Monad.IO.ClassMonadIOText.PrettyPrint.Mainland.ClasspprintPrettypprListpprpprPrecGHC.ClassesOrdEq
ghc-bignumGHC.Num.IntegerRationalMonoid==memptyTruetransformers-0.5.6.2Control.Monad.Trans.ReaderReaderGHC.ErrerrorData.Functor.IdentityIdentityEQLTFunctorTraversableGHC.NumNumDoublelengthControl.Monad.FailfailMaybeEitherControl.Monad.Trans.Writer.LazyWriterGHC.ShowShowControl.CategoryCategoryJustChunkMapControl.MonadguardjoinMonadreturn>>=>>fmap<$Control.Monad.FixMonadFixmfix	MonadFailsequencemapM	MonadPlusmzeromplusliftIOmfilter<$!>unlessreplicateM_
replicateMfoldM_foldM	zipWithM_zipWithMmapAndUnzipMforever<=<>=>filterMforMmsum	sequence_forM_mapM_Data.FunctionfixData.FunctorvoidapliftM5liftM4liftM3liftM2liftMwhen=<<Control.Monad.Trans.Class
MonadTransliftReaderT
runReaderT
mapReaderTControl.Monad.Reader.ClassasksMonadReaderreaderasklocal	runReader	mapReader
withReaderwithReaderT	segOpType	Semigroup
scanTokensshowParserMonadprogfutharkType
expressionmodExpressionanyValue	anyValuesparseHappyStkbinary-0.8.8.0Data.Binary.ClassputNoteMemoryDestinationthreadOperations	getBinDir	getLibDirgetDynLibDir
getDataDirgetLibexecDirgetSysconfDirgetDataFileNameSystem.Console.GetOptgetOpt'getOpt	usageInfoArgOrderReturnInOrderRequireOrderPermuteOptDescrArgDescrOptArgNoArgReqArg