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@@@Ӡ$TypeLA,Stdlib__Type@؅؅؅؟@!@@@Ӡ%UcharMA-Stdlib__Uchar@@"@@@Ӡ$UnitNA,Stdlib__Unit@@#@@@Ӡ$WeakOA,Stdlib__Weak@666P@$@@@@y&Stdlib0Lku]8_٠,Stdlib__Weak@,Stdlib__Unit@-Stdlib__Uchar@,Stdlib__Type@+Stdlib__Sys@4Stdlib__StringLabels@.Stdlib__String@1Stdlib__StdLabels@-Stdlib__Stack@+Stdlib__Set@+Stdlib__Seq@1Stdlib__Semaphore@-Stdlib__Scanf@.Stdlib__Result@,Stdlib__Repr@.Stdlib__Random@-Stdlib__Queue@.Stdlib__Printf@0Stdlib__Printexc@.Stdlib__Pqueue@/Stdlib__Parsing@,Stdlib__Pair@3Stdlib__Out_channel@.Stdlib__Option@*Stdlib__Oo@+Stdlib__Obj@1Stdlib__Nativeint@-Stdlib__Mutex@2Stdlib__MoreLabels@/Stdlib__Marshal@+Stdlib__Map@2Stdlib__ListLabels@,Stdlib__List@.Stdlib__Lexing@,Stdlib__Lazy@-Stdlib__Int64@-Stdlib__Int32@+Stdlib__Int@2Stdlib__In_channel@.Stdlib__Iarray@/Stdlib__Hashtbl@*Stdlib__Gc@+Stdlib__Fun@.Stdlib__Format@-Stdlib__Float@0Stdlib__Filename@1Stdlib__Ephemeron@.Stdlib__Either@.Stdlib__Effect@0Stdlib__Dynarray@.Stdlib__Domain@.Stdlib__Digest@1Stdlib__Condition@/Stdlib__Complex@,Stdlib__Char@0Stdlib__Callback@3Stdlib__BytesLabels@-Stdlib__Bytes@.Stdlib__Buffer@,Stdlib__Bool@0Stdlib__Bigarray@.Stdlib__Atomic@3Stdlib__ArrayLabels@-Stdlib__Array@+Stdlib__Arg@8CamlinternalFormatBasics0%FU(Q/Tu@@@Caml1999T037PgC&Stdlib*ocaml.text&_none_@@A  The OCaml Standard library. This module is automatically opened at the beginning of each compilation. All components of this module can therefore be referred by their short name, without prefixing them by [Stdlib]. In particular, it provides the basic operations over the built-in types (numbers, booleans, byte sequences, strings, exceptions, references, lists, arrays, input-output channels, ...) and the {{!modules}standard library modules}. *stdlib.mliPHHZ')@@@@@@3@@@@@@#intA;@@@A@@@@@9@A@$charB;@@A@@@@@=@A@&stringQ;@@ A@@@@@A@@@%bytesC;@@ A@@@@@E@@@%floatD;@@A@@@@@I@@@$boolE;@@%falsec@@S@$trued@@Y@@@A@@@@@Z@A@$unitF;@@"()e@@d@@@A@@@@@e@A@ #exnG;@@@A@@@@@i@@@#effH;@@O@A@A@@@@@@r@@@,continuationI;@@Q@@P@B@A@nY@@@@@@@@@%arrayJ;@@R@A@A@@@@@@@@@ $listK;@@S@A"[]f@@@"::g@@@T@@@ @@A@Y@@@@@@@@&optionL;@@V@A$Noneh@@@$Somei@@@@@A@Y@@@@@@@@)nativeintM;@@A@@@@@@@@%int32N;@@A@@@@@@@@%int64O;@@A@@@@@@@@&lazy_tP;@@X@AJA@Y@@@@@@@@5extension_constructorR;@@A@@@@@@@@*floatarrayS;@@A@@@@@@@@&iarrayT;@@Y@A[A@Y@@@@@@@@*atomic_locU;@@Z@AdA@@@@@@@@@.Assert_failure`#@@@@@J@@@@@@@@[@@A=ocaml.warn_on_literal_pattern @ @0Division_by_zero]#@@@A  @+End_of_file\#$@@@A@'FailureY#,@'@@A ##@0Invalid_argumentX#5@0@@A)$,#,@-Match_failureV#>@@=@9@;@@a@@A:5=4=@)Not_foundZ#O@@@AB=E<E@-Out_of_memoryW#W@@@AJEMDM@.Stack_overflow^#_@@@ARMULU@.Sys_blocked_io_#g@@@AZU]T]@)Sys_error[#o@j@@Ac^f]f@:Undefined_recursive_modulea#x@@w@s@u@@h@@Atownw@:Continuation_already_takenb#@@@A|wv@@At0 {1 Exceptions} \++\+@@@@@@@%raiseD^BK^BP@б@г:#exn^BS^BV@@ @@@n@@А!a@rA@o^BZ^B\@@@ @@p@@&%raiseAA @@@^BB^Bg@)ocaml.docŐ ! Raise the given exception value _hh_h@@@@@@@@@@@א@@@@@@!-raise_notraceEaa@б@г#exnaa@@ @@@s3@dA@A@@А!a@wA@t aa@@@ @@u@@.%raise_notraceAAP@@@aa@O O A faster version [raise] which does not record the backtrace. @since 4.02 bd@@@@@@@(A@@@`$@@@@@@5+invalid_argF'f (f+@б@г&string2f.3f4@@ @@@x343344444@Nc>@A@@А!a@|A@y Cf8Df:@@@ @@z@@@Jf@ ; Raise exception [Invalid_argument] with the given string. Wg;;Xg;{@@@@@@@pB@@@k@@@@@@/(failwithGni}oi}@б@гD&stringyi}zi}@@ @@@}3{zz{{{{{@H]8@A@@А!a@AA@~ i}i}@@@ @@@@@i}}@ސ 2 Raise exception [Failure] with the given string. jj@@@@@@@C@@@@@@@@@/$ExitHAll@#@@@Al@ k The [Exit] exception is not raised by any library function. It is provided for use in your programs. mn(Q@@@@@@@D@@@@ݐ@@@@@@@3@[pK@A $@-Match_failureIBpS]pSj@#@@@@@C@@@@D@@@@E@@F@@ApSSq@=ocaml.warn_on_literal_patternqq@@ q @V Exception raised when none of the cases of a pattern-matching apply. The arguments are the location of the match keyword in the source code (file name, line number, column number). rt - g@@@@@@@/E@@В@г3&string&pSo'pSu@@;3%$$%%%%%@Qxr@A@@@г:#int3pSx4pS{@@B @@@г?#int>pS~?pS@@G@@@X@@@@EBA@>V=<@<<@@@<@<@T@)TS@.Assert_failureJC[v i s\v i @#y@@6@@@H@E@@@I@K@@@J@@K@@Auv i ivw  @=ocaml.warn_on_literal_pattern|w  }w  @@w   @͐ Exception raised when an assertion fails. The arguments are the location of the assert keyword in the source code (file name, line number, column number). x  z G d@@@@@@@F@@В@г3&stringv i v i @@;3@x@A@@@г:#intv i v i @@B @@@г?#intv i v i @@G@@@X@@@@EBA@> ͐=<@<<@@@<@<@T@)TS@0Invalid_argumentKD| f p| f @#@@@@M@@A| f f}  @=ocaml.warn_on_literal_pattern}  }  @@}   @4 ( Exception raised by library functions to signal that the given arguments do not make sense. The string gives some information to the programmer. As a general rule, this exception should not be caught, it denotes a programming error and the code should be modified not to trigger it. ~  B  @@@@@@@ G@@г#&string| f | f @@+3@d@A@@@@*'&@#U"!@!!@@@!@!@9@98@'FailureLED  D  @#<@@@@O@@A(D  )E  @=ocaml.warn_on_literal_pattern/E  0E  @@3E   @  Exception raised by library functions to signal that they are undefined on the given arguments. The string is meant to give some information to the programmer; you must not pattern match on the string literal because it may change in future versions (use Failure _ instead). @F  AJ ( A@@@@@@@YH@@г#&stringLD  MD  @@+3KJJKKKKK@M|@A@@@@*'&@#e"!@!!@@@!@!@9@98@)Not_foundMFjL C MkL C V@#@@@AoL C C@ U Exception raised by search functions when the desired object could not be found. |M W W}N  @@@@@@@I@@@@@@@@@@@3@?tn@A $@-Out_of_memoryNGP  P  @#@@@AP  @ꐠ Exception raised by the garbage collector when there is insufficient memory to complete the computation. (Not reliable for allocations on the minor heap.) Q  SMr@@@@@@@J@@@@@@@@@@@3@/VP@A $@.Stack_overflowOHUt~Ut@#@@@AUtt@  Exception raised by the bytecode interpreter when the evaluation stack reaches its maximal size. This often indicates infinite or excessively deep recursion in the user's program. Before 4.10, it was not fully implemented by the native-code compiler. V[@@@@@@@K@@@@)퐠@@@@@@@3@/VP@A $@)Sys_errorPI]]@#@@@@T@@A]^@=ocaml.warn_on_literal_pattern^^@@ ^ @V  Exception raised by the input/output functions to report an operating system error. The string is meant to give some information to the programmer; you must not pattern match on the string literal because it may change in future versions (use Sys_error _ instead). _c@@@@@@@/L@@г#&string"]#]@@+3!  !!!!!@=d^@A@@@@*'&@#w;"!@!!@@@!@!@9@98@+End_of_fileQJ@eAe@#^@@@AEe@ Y Exception raised by input functions to signal that the end of file has been reached. RfSgXo@@@@@@@kM@@@@g@@@@@@@3_^^_____@?tn@A $@0Division_by_zeroRKniq{oiq@#@@@Asiqq@ f Exception raised by integer division and remainder operations when their second argument is zero. jk@@@@@@@N@@@@@@@@@@@3@/VP@A $@.Sys_blocked_ioSLmm@#@@@Am@ ^ A special case of Sys_error raised when no I/O is possible on a non-blocking I/O channel. noVu@@@@@@@O@@@@Ð@@@@@@@3@/VP@A $@:Undefined_recursive_moduleTMqwqw@#@@@@@Y@@@@Z@@@@[@@\@@Aqwwr@=ocaml.warn_on_literal_patternrr@@r @< Exception raised when an ill-founded recursive module definition is evaluated. The arguments are the location of the definition in the source code (file name, line number, column number). sua@@@@@@@P@@В@г3&string qw qw@@;3        @Qxr@A@@@г:#intqwqw@@B @@@г?#int$qw%qw@@G@@@X@@@@EBA@>x<=<@<<@@@<@<@T@)TS@KJ1 {1 Comparisons} GwHw@@@@@@3FEEFFFFF@<@A!=USyTy@б@А!a@cN@^`yay@@б@А!a hyiy@@г0$boolqyry@@ @@@_-@@@@@`0@@@"@@a3 @@&%equalBAҠ@@@@yy@Ґ d Alias of {!Repr.equal} Left-associative operator, see {!Ocaml_operators} for more information. z|MO@@@@@@@Q@@@@@@@@@Y"<>V~QZ~Q`@б@А!a@iN@d3@ni;@A~Qc~Qe@@б@А!a ~Qi~Qk@@г$bool~Qo~Qs@@ @@@e@@@!@@f@@@$@@g @@)%notequalBA+@@@@~QQ~Q@+ h Negation of {!Repr.equal}. Left-associative operator, see {!Ocaml_operators} for more information. @@@@@@@R@@@<@@@@@@E!= )}. Left-associative operator, see {!Ocaml_operators} for more information. D!!E@@@@@@@]S@@@Y@@@@@@E!>X\]@б@А!a@uN@p3eddeeeee@Zk;@Akl@@б@А!a st@@г;$bool|}@@ @@@q@@@!@@r@@@$@@s @@,%greaterthanBAݠ@@@@@ݐ d See {!Stdlib.( >= )}. Left-associative operator, see {!Ocaml_operators} for more information. %'@@@@@@@T@@@@@@@@@E"<=Y)2)8@б@А!a@{N@v3@Zk;@A);)=@@б@А!a )A)C@@г$bool)G)K@@ @@@w@@@!@@x@@@$@@y @@*%lessequalBA6@@@@)))Z@6 d See {!Stdlib.( >= )}. Left-associative operator, see {!Ocaml_operators} for more information. [[@@@@@@@U@@@G @@@@@@E">=Z@б@А!a@N@|3@Zk;@A@@б@А!a %&@@г$bool./@@ @@@}@@@!@@~@@@$@@ @@-%greaterequalBA@@@@AB@ * Structural ordering functions. These functions coincide with the usual orderings over integers, characters, strings, byte sequences and floating-point numbers, and extend them to a total ordering over all types. The ordering is compatible with {!Repr.equal}. As in the case of {!Repr.equal}, mutable structures are compared by contents. Comparison between functional values raises [Invalid_argument]. Comparison between cyclic structures may not terminate. Left-associative operator, see {!Ocaml_operators} for more information. OP(*@@@@@@@hV@@@d@@@@@@E'compare[g,5h,<@б@А!a@N@3pooppppp@Zk;@Av,?w,A@@б@А!a ~,E,G@@г[#int,K,N@@ @@@@@@!@@@@@$@@ @@(%compareBA@@@@,,,[@萠; Alias of {!Repr.compare}. \\\|@@@@@@@W@@@@@@@@@E#min\~~@б@А!a@N@3@Zk;@A~~@@б@А!a ~~@@А!a~~@@@@@ @@@@@@@@~~ @47 Alias of {!Repr.min}. @@@@@@@ X@@@D @@@@@@7#max]  @б@А!a@N@3        @L]4@A  @@б@А!a  " #@@А!a ( )@@@@@ @@@@@@@@ 2 @7 Alias of {!Repr.max}.  ? @@@@@@@@ XY@@@ S@@@@@@7"==^ V W@б@А!a@N@3 _ ^ ^ _ _ _ _ _@L]4@A e f@@б@А!a  m n@@г 5$bool v  w@@ @@@@@@!@@@@@$@@ @@#%eqBAנ@@@@  @א k Alias of {!Repr.phys_equal}. Left-associative operator, see {!Ocaml_operators} for more information.   @@@@@@@ Z@@@ @@@@@@E"!=_  @б@А!a@N@3        @Zk;@A  @@б@А!a   @@г $bool  @@ @@@@@@!@@@@@$@@ @@&%noteqBA0@@@@  @0 n Negation of {!Repr.phys_equal}. Left-associative operator, see {!Ocaml_operators} for more information.   (*@@@@@@@ [@@@A @@@@@@E  8 {1 Boolean operations}  -- -J@@@@@@3        @Wh8@A#not` LU LX@б@г 堐$bool &L[ 'L_@@ @@@@@г $bool 3Lc 4Lg@@ @@@'@@@@@*@@(%boolnotAA@@@ BLL CLt@7 The boolean negation.  Puu Qu@@@@@@@ i\@@@ e@@@@@@O"&&a h i@б@г 2$bool s t@@ @@@3 u t t u u u u u@hc>@A@@б@г C$bool  @@ @@@@@г P$bool  @@ @@@@@@@@!@@@'@@$* @@(%sequandBA@@@@  @򐠠 The boolean 'and'. Evaluation is sequential, left-to-right: in [e1 && e2], [e1] is evaluated first, and if it returns [false], [e2] is not evaluated at all. Right-associative operator, see {!Ocaml_operators} for more information.   @@@@@@@ ]@@@  ǐ@@@@@@J"||b  @б@г $bool  @@ @@@3        @cx?@A@@б@г $bool  @@ @@@@@г $bool  @@ @@@@@@@@!@@@'@@$* @@'%sequorBA T@@@@  @ T The boolean 'or'. Evaluation is sequential, left-to-right: in [e1 || e2], [e1] is evaluated first, and if it returns [true], [e2] is not evaluated at all. Right-associative operator, see {!Ocaml_operators} for more information.   @@@@@@@ -^@@@ e )@@@@@@J 7 6/ {1 Debugging}  3 4@@@@@@3 2 1 1 2 2 2 2 2@\q8@A'__LOC__c ? @@г &string H I@@ @@@@@(%loc_LOC@A @@ S T$@ [__LOC__] returns the location at which this expression appears in the file currently being parsed by the compiler, with the standard error format of OCaml: "File %S, line %d, characters %d-%d". @since 4.02  a%% b@@@@@@@ z_@@@  v@@@@@@<(__FILE__d y z@г M&string  "@@ @@@3        @SN;@A@@)%loc_FILE@A @@  0@ ݐ e [__FILE__] returns the name of the file currently being parsed by the compiler. @since 4.02  11 @@@@@@@ `@@@  @@@@@@&(__LINE__e  @г #int  @@ @@@3        @=P;@A@@)%loc_LINE@A @@  @  [__LINE__] returns the line number at which this expression appears in the file currently being parsed by the compiler. @since 4.02    S U@@@@@@@ a@@@ * @@@@@@&*__MODULE__f  W `  W j@г Š&string  W m  W s@@ @@@3        @=P;@A@@+%loc_MODULE@A W@@  W W  W @ U d [__MODULE__] returns the module name of the file being parsed by the compiler. @since 4.02       @@@@@@@ .b@@@ f *@@@@@@&'__POS__g -   .  @В@г &string : ! ; !@@ @@@3 < ; ; < < < < <@AT?@A@@@г #int K !  L !@@ @@@@@@г .#int Z ! [ !@@ @@@ @@@г =#int i ! j !@@ @@@/@@@@7@(@@@@:@@@ (%loc_POS@A @@     !'@ ͐ ^ [__POS__] returns a tuple [(file,lnum,cnum,enum)], corresponding to the location at which this expression appears in the file currently being parsed by the compiler. [file] is the current filename, [lnum] the line number, [cnum] the character position in the line and [enum] the last character position in the line. @since 4.02  !(!( ""@@@@@@@ c@@@  @@@@@@^,__FUNCTION__h "" ""@г y&string "" ""@@ @@@3        @u;@A@@-%loc_FUNCTION@A @@ "" ""@ [__FUNCTION__] returns the name of the current function or method, including any enclosing modules or classes. @since 4.12  "" #6#H@@@@@@@ d@@@  ސ@@@@@@&*__LOC_OF__i #J#S #J#]@б@А!a@N@3        @;N9@A #J#` #J#b@@В@г Ƞ&string #J#f #J#l@@ @@@@@@А!a  #J#o #J#q@@@@@)@@$@@@, @@'% @@(%loc_LOCAA j@@@ #J#J #J#~@ i [__LOC_OF__ expr] returns a pair [(loc, expr)] where [loc] is the location of [expr] in the file currently being parsed by the compiler, with the standard error format of OCaml: "File %S, line %d, characters %d-%d". @since 4.02  )## *$w$y@@@@@@@ Be@@@ z >@@@@@@L+__LINE_OF__j A${$ B${$@б@А!a@N@3 J I I J J J J J@ar:@A P${$ Q${$@@В@г 1#int ]${$ ^${$@@ @@@@@@А!a  i${$ j${$@@@@@)@@$@@@, @@'% @@)%loc_LINEAA ʠ@@@ {${${ |${$@ ɐ [__LINE_OF__ expr] returns a pair [(line, expr)], where [line] is the line number at which the expression [expr] appears in the file currently being parsed by the compiler. @since 4.02  $$ %x%{@@@@@@@ f@@@  @@@@@@L*__POS_OF__k %}% %}%@б@А!a@N@3        @ar:@A %}% %}%@@В@В@г &string %}% %}%@@ @@@@@@г #int %}% %}%@@ @@@(@@@г #int %}% %}%@@ @@@7@@@г  #int %}% %}%@@ @@@F@@@@5@(@@@@Q>@@@А!a\W%}%%}%@@@@@e@@`%}% @@@i @@db @@(%loc_POSAA g@@@%}%}%}%@ f  [__POS_OF__ expr] returns a pair [(loc,expr)], where [loc] is a tuple [(file,lnum,cnum,enum)] corresponding to the location at which the expression [expr] appears in the file currently being parsed by the compiler. [file] is the current filename, [lnum] the line number, [cnum] the character position in the line and [enum] the last character position in the line. @since 4.02 &%%''['^@@@@@@@?g@@@ w;@@@@@@IH; {1 Composition operators} E'`'`F'`'@@@@@@3DCCDDDDD@7@A"|>lQ ''R ''@б@А!a@N@^ ''_ ''@@б@б@А!a h ''i ''@@А!b@N@+s ''t ''@@@ @@0@@А!b4| ''} ''@@@ @@9 ''@@@,@@='@@)%revapplyBA ڠ@@@@ '' ''@ ڐ Reverse-application operator: [x |> f |> g] is exactly equivalent to [g (f (x))]. Left-associative operator, see {!Ocaml_operators} for more information. @since 4.01  ''(f(h@@@@@@@h@@@ @@@@@@c"@@m(j(s(j(y@б@б@А!a@N@3@zu=@A(j(}(j(@@А!b@N@ (j((j(@@@ @@@@б@А!a(j((j(@@А!b(j((j(@@@(@@# @@@@@&(j(|@@&%applyBA =@@@@(j(j(j(@ = Application operator: [g @@ f @@ x] is exactly equivalent to [g (f (x))]. Right-associative operator, see {!Ocaml_operators} for more information. @since 4.01 (()D)F@@@@@@@i@@@ N@@@@@@M 8 {1 Integer arithmetic} )H)H)H)e@@@@@@3@_r8@A32 Integers are [Sys.int_size] bits wide. All operations are taken modulo 2{^[Sys.int_size]}. They do not fail on overflow. /)g)g0))@@@@@@"~-n9)):))@б@г#intD)*E)*@@ @@@+@@г%#intQ)* R)* @@ @@@8@@@@@;@@'%negintAA @@@`))a)*@ ~ Unary negation. You can also write [- e] instead of [~- e]. Unary operator, see {!Ocaml_operators} for more information. n**o!**@@@@@@@j@@@ @@@@@@`"~+o$**$**@б@гe#int$**$**@@ @@@3@yc>@A@@гt#int$**$**@@ @@@@@@@@@@)%identityAA @@@$**$**@ Unary addition. You can also write [+ e] instead of [~+ e]. Unary operator, see {!Ocaml_operators} for more information. @since 3.12 %**(+[+]@@@@@@@k@@@Ґ@@@@@@7$succp*+_+h*+_+l@б@г#int*+_+o*+_+r@@ @@@3@Pe>@A@@гà#int*+_+v*+_+y@@ @@@@@@@@@@(%succintAAM@@@*+_+_*+_+@L6 [succ x] is [x + 1].  +++ +++@@@@@@@%l@@@]!@@@@@@7$predq$-++%-++@б@г#int/-++0-++@@ @@@310011111@Pe>@A@@г#int>-++?-++@@ @@@@@@@@@@(%predintAA@@@M-++N-++@6 [pred x] is [x - 1]. [.++\.++@@@@@@@tm@@@p@@@@@@7!+rs0++t0++@б@гR#int~0++0++@@ @@@3@Pe>@A@@б@гc#int0+,0+,@@ @@@@@гp#int0+,0+, @@ @@@@@@@@!@@@'@@$* @@'%addintBA@@@@0++0+,@ _ Integer addition. Left-associative operator, see {!Ocaml_operators} for more information. 1,,3,z,|@@@@@@@n@@@Ґ@@@@@@J!-s5,~,5,~,@б@г#int5,~,5,~,@@ @@@3@cx?@A@@б@гŠ#int5,~,5,~,@@ @@@@@гҠ#int5,~,5,~,@@ @@@@@@@@!@@@'@@$* @@'%subintBA_@@@@5,~,~5,~,@_ d Integer subtraction. Left-associative operator, , see {!Ocaml_operators} for more information. 6,, 8--@@@@@@@8o@@@p4@@@@@@J!*t7:--!8:--&@б@г#intB:--)C:--,@@ @@@3DCCDDDDD@cx?@A@@б@г'#intS:--0T:--3@@ @@@@@г4#int`:--7a:--:@@ @@@@@@@@!@@@'@@$* @@'%mulintBA@@@@s:--t:--F@ e Integer multiplication. Left-associative operator, see {!Ocaml_operators} for more information. ;-G-G=--@@@@@@@p@@@@@@@@@J!/u?--?--@б@гx#int?--?--@@ @@@3@cx?@A@@б@г#int?--?--@@ @@@@@г#int?--?--@@ @@@@@@@@!@@@'@@$* @@'%divintBA#@@@@?--?--@#  Integer division. Integer division rounds the real quotient of its arguments towards zero. More precisely, if [x >= 0] and [y > 0], [x / y] is the greatest integer less than or equal to the real quotient of [x] by [y]. Moreover, [(- x) / y = x / (- y) = - (x / y)]. Left-associative operator, see {!Ocaml_operators} for more information. @raise Division_by_zero if the second argument is 0. @--H//@@@@@@@q@@@4@@@@@@J#modvJ//J//@б@гڠ#intJ//J//@@ @@@3@cx?@A@@б@г렐#intJ//J//@@ @@@@@г#int$J//%J//@@ @@@@@@@@!@@@'@@$* @@'%modintBA@@@@7J//8J//@  Integer remainder. If [y] is not zero, the result of [x mod y] satisfies the following properties: [x = (x / y) * y + x mod y] and [abs(x mod y) <= abs(y) - 1]. If [y = 0], [x mod y] raises [Division_by_zero]. Note that [x mod y] is negative only if [x < 0]. Left-associative operator, see {!Ocaml_operators} for more information. @raise Division_by_zero if [y] is zero. EK//FT1D1F@@@@@@@^r@@@Z@@@@@@J#absw]V1H1L^V1H1O@б@г<#inthV1H1RiV1H1U@@ @@@3jiijjjjj@cx?@A@@гK#intwV1H1YxV1H1\@@ @@@@@@@@@@@V1H1H @ϐ k [abs x] is the absolute value of [x]. On [min_int] this is [min_int] itself and thus remains negative. W1]1]X11@@@@@@@s@@@@@@@@@1'max_intxZ11Z11@г#intZ11Z11@@ @@@3@H]6@A@@@Z11 @ % The greatest representable integer. [11[12 @@@@@@@t@@@ڐ@@@@@@!'min_inty]2 2]2 2@г#int]2 2]2 2@@ @@@3@8K6@A@@@]2 2  @= % The smallest representable integer. ^22^22I@@@@@@@u@@@M@@@@@@!8 {2 Bitwise operations} a2L2La2L2i@@@@@@3@3F1@A$landz'c2k2t(c2k2|@б@г#int2c2k23c2k2@@ @@@@@б@г#intAc2k2Bc2k2@@ @@@)@@г"#intNc2k2Oc2k2@@ @@@ 6@@@@@ 9@@@%@@ <( @@'%andintBA@@@@ac2k2kbc2k2@ b Bitwise logical and. Left-associative operator, see {!Ocaml_operators} for more information. od22pf33@@@@@@@v@@@@@@@@@b#lor{h33h33@б@гf#inth33h33@@ @@@ 3@{v?@A@@б@гw#inth33 h33#@@ @@@ @@г#inth33'h33*@@ @@@@@@@@!@@@'@@$* @@&%orintBA@@@@h33h335@ a Bitwise logical or. Left-associative operator, see {!Ocaml_operators} for more information. i3636k33@@@@@@@w@@@"搠@@@@@@J$lxor|m33m33@б@гȠ#intm33m33@@ @@@3@cx?@A@@б@г٠#intm33m33@@ @@@@@г栐#intm33m33@@ @@@@@@@@!@@@'@@$* @@'%xorintBAs@@@@%m33&m33@s k Bitwise logical exclusive or. Left-associative operator, see {!Ocaml_operators} for more information. 3n334p4>4@@@@@@@@Lx@@@H@@@@@@J$lnot}Kr4B4FLr4B4J@б@г*#intVr4B4MWr4B4P@@ @@@3XWWXXXXX@cx?@A@@г9#inter4B4Tfr4B4W@@ @@@@@@@@@@@pr4B4B @; Bitwise logical negation. }s4X4X~s4X4x@@@@@@@y@@@@@@@@@1#lsl~u4z4u4z4@б@гs#intu4z4u4z4@@ @@@3@J_8@A@@б@г#intu4z4u4z4@@ @@@@@г#intu4z4u4z4@@ @@@@@@@@!@@@'@@$* @@'%lslintBA@@@@u4z4zu4z4@ [n lsl m] shifts [n] to the left by [m] bits. The result is unspecified if [m < 0] or [m > Sys.int_size]. Right-associative operator, see {!Ocaml_operators} for more information. v44y5j5l@@@@@@@z@@@/󐠠@@@@@@J#lsr{5n5w{5n5~@б@гՠ#int{5n5{5n5@@ @@@3@cx?@A@@б@г栐#int{5n5{5n5@@ @@@@@г#int{5n5 {5n5@@ @@@ @@@@@!!@@@'@@"$* @@'%lsrintBA@@@@2{5n5n3{5n5@  [n lsr m] shifts [n] to the right by [m] bits. This is a logical shift: zeroes are inserted regardless of the sign of [n]. The result is unspecified if [m < 0] or [m > Sys.int_size]. Right-associative operator, see {!Ocaml_operators} for more information. @|55A66@@@@@@@Y{@@@U@@@@@@J#asr@X66Y66@б@г7#intc66d66@@ @@@#3eddeeeee@cx?@A@@б@гH#intt66u66@@ @@@$@@гU#int6666@@ @@@%@@@@@&!@@@'@@'$* @@'%asrintBA@@@@6666@␠  [n asr m] shifts [n] to the right by [m] bits. This is an arithmetic shift: the sign bit of [n] is replicated. The result is unspecified if [m < 0] or [m > Sys.int_size]. Right-associative operator, see {!Ocaml_operators} for more information. 6677@@@@@@@|@@@@@@@@@JĐ  {1 Floating-point arithmetic} OCaml's floating-point numbers follow the IEEE 754 standard, using double precision (64 bits) numbers. Floating-point operations never raise an exception on overflow, underflow, division by zero, etc. Instead, special IEEE numbers are returned as appropriate, such as [infinity] for [1.0 /. 0.0], [neg_infinity] for [-1.0 /. 0.0], and [nan] ('not a number') for [0.0 /. 0.0]. These special numbers then propagate through floating-point computations as expected: for instance, [1.0 /. infinity] is [0.0], basic arithmetic operations ([+.], [-.], [*.], [/.]) with [nan] as an argument return [nan], ... 77::@@@@@@3@\q8@A#~-.A::::@б@г%float::::@@ @@@(@@г%float::::@@ @@@)'@@@@@**@@)%negfloatAAC@@@::::@B Unary negation. You can also write [-. e] instead of [~-. e]. Unary operator, see {!Ocaml_operators} for more information. ::;E;G@@@@@@@}@@@S@@@@@@O#~+.B;I;R;I;Y@б@г蠐%float%;I;\&;I;a@@ @@@+3'&&'''''@hc>@A@@г%float4;I;e5;I;j@@ @@@,@@@@@-@@)%identityAA@@@C;I;ID;I;x@ Unary addition. You can also write [+. e] instead of [~+. e]. Unary operator, see {!Ocaml_operators} for more information. @since 3.12 Q;y;yR< <@@@@@@@j~@@@f@@@@@@7"+.Ci<<j<<@б@г7%floatt<<"u<<'@@ @@@.3vuuvvvvv@Pe>@A@@б@гH%float<<+<<0@@ @@@/@@гU%float<<4<<9@@ @@@0@@@@@1!@@@'@@2$* @@)%addfloatBA@@@@<<<>@@@@@@@A@@@@@@@@@J"/.F>>>>@б@г]%float>>>>@@ @@@=3@cx?@A@@б@гn%float>>#>>(@@ @@@>@@г{%float>>,>>1@@ @@@?@@@@@@!@@@'@@A$* @@)%divfloatBA@@@@>>>>?@ f Floating-point division. Left-associative operator, see {!Ocaml_operators} for more information. >@>@>>@@@@@@@B@@@*@@@@@@J"**G>>>>@б@г%float>>>>@@ @@@B3@cx?@A@@б@гР%float >>>>@@ @@@C@@гݠ%float>>>>@@ @@@D@@@@@E!@@@'@@F$* @@0caml_power_floatB@#powAA@A.>>/>? @'unboxed5>>6>>@@9>>:>>@'noalloc@>?A>? @@D>?@ ^ Exponentiation. Right-associative operator, see {!Ocaml_operators} for more information. Q? ? R?m?o@@@@@@@jC@,,@)(@'&@# @o@@@@@@i=$sqrtHr?q?zs?q?~@б@г@%float}?q?~?q?@@ @@@G3~~@^@A@@гO%float?q??q?@@ @@@H@@@@@I@@/caml_sqrt_floatA@$sqrtA@A?q?q??@'unboxed????@@????@'noalloc????@@??@. Square root. ????@@@@@@@D@++@)(@'&@# @ݐ@@@@@@V=#expI????@б@г%float????@@ @@@J3@o]@A@@г%float????@@ @@@K@@@@@L@@.caml_exp_floatA@#expA@A ?? ?@(@'unboxed?@?@@@?@?@@'noalloc?@ ?@'@@ ?@@m. Exponential. -@)@).@)@<@@@@@@@FE@++@)(@'&@# @K@@@@@@V=#logJN@>@GO@>@J@б@г%floatY@>@MZ@>@R@@ @@@M3[ZZ[[[[[@o]@A@@г+%floath@>@Vi@>@[@@ @@@N@@@@@O@@.caml_log_floatA@#logA@Ax@>@>y@>@@'unboxed@>@x@>@@@@>@u@>@@'noalloc@>@@>@@@@>@@ې4 Natural logarithm. @@@@@@@@@@@F@++@)(@'&@# @@@@@@@V=%log10K@@@@@б@г%float@@@@@@ @@@P3@o]@A@@г%float@@@@@@ @@@Q@@@@@R@@0caml_log10_floatA@%log10A@A@@@@@'unboxed@@@@@@@@@@@'noalloc@@@@@@@@@I4 Base 10 logarithm.  @@ @A@@@@@@@"G@++@)(@'&@# @c'@@@@@@V=%expm1L*AA#+AA(@б@г%float5AA+6AA0@@ @@@S376677777@o]@A@@г%floatDAA4EAA9@@ @@@T@@@@@U@@0caml_expm1_floatA@*caml_expm1A@ATAAUA\Au@'unboxed[A\Aa\A\Ah@@_A\A^`A\Ai@'noallocfA\AmgA\At@@jA\Aj@ { [expm1 x] computes [exp x -. 1.0], giving numerically-accurate results even if [x] is close to [0.0]. @since 3.12 wAvAvxAA@@@@@@@H@++@)(@'&@# @@@@@@@V=%log1pMABAB@б@гf%floatAB AB@@ @@@V3@o]@A@@гu%floatABAB@@ @@@W@@@@@X@@0caml_log1p_floatA@*caml_log1pA@AAAB:BS@'unboxedB:B?B:BF@@B:B<B:BG@'noallocB:BKB:BR@@B:BH@% [log1p x] computes [log(1.0 +. x)] (natural logarithm), giving numerically-accurate results even if [x] is close to [0.0]. @since 3.12 BTBTBB@@@@@@@I@++@)(@'&@# @?@@@@@@V=#cosNBBBB@б@гԠ%floatBBBB@@ @@@Y3@o]@A@@г㠐%float BC!BC@@ @@@Z@@@@@[@@.caml_cos_floatA@#cosA@A0BB1BC9@'unboxed7BC%8BC,@@;BC"<BC-@'noallocBBC1CBC8@@FBC.@ " Cosine. Argument is in radians. SC:C:TC:Ca@@@@@@@lJ@++@)(@'&@# @q@@@@@@V=#sinOtCcCluCcCo@б@гB%floatCcCrCcCw@@ @@@\3@o]@A@@гQ%floatCcC{CcC@@ @@@]@@@@@^@@.caml_sin_floatA@#sinA@ACcCcCcC@'unboxedCcCCcC@@CcCCcC@'noallocCcCCcC@@CcC@ Sine. Argument is in radians. CCCC@@@@@@@K@++@)(@'&@# @ߐ@@@@@@V=#tanPCCCC@б@г%floatCCCC@@ @@@_3@o]@A@@г%floatCCCC@@ @@@`@@@@@a@@.caml_tan_floatA@#tanA@A CC CD'@'unboxedCDCD@@CDCD@'noallocCDCD&@@"CD@o # Tangent. Argument is in radians. /D(D(0D(DP@@@@@@@HL@++@)(@'&@# @M@@@@@@V=$acosQPDRD[QDRD_@б@г%float[DRDb\DRDg@@ @@@b3]\\]]]]]@o]@A@@г-%floatjDRDkkDRDp@@ @@@c@@@@@d@@/caml_acos_floatA@$acosA@AzDRDR{DD@'unboxedDDDD@@DDDD@'noallocDDDD@@DD@ݐ } Arc cosine. The argument must fall within the range [[-1.0, 1.0]]. Result is in radians and is between [0.0] and [pi]. DDDE(@@@@@@@M@++@)(@'&@# @@@@@@@V=$asinRE*E3E*E7@б@г%floatE*E:E*E?@@ @@@e3@o]@A@@г%floatE*ECE*EH@@ @@@f@@@@@g@@/caml_asin_floatA@$asinA@AE*E*EdE}@'unboxedEdEiEdEp@@EdEfEdEq@'noallocEdEuEdE|@@EdEr@K  Arc sine. The argument must fall within the range [[-1.0, 1.0]]. Result is in radians and is between [-pi/2] and [pi/2].  E~E~ EF@@@@@@@$N@++@)(@'&@# @e)@@@@@@V=$atanS,FF -FF@б@г%float7FF8FF@@ @@@h398899999@o]@A@@г %floatFFFGFF"@@ @@@i@@@@@j@@/caml_atan_floatA@$atanA@AVFFWF>FW@'unboxed]F>FC^F>FJ@@aF>F@bF>FK@'noallochF>FOiF>FV@@lF>FL@ J Arc tangent. Result is in radians and is between [-pi/2] and [pi/2]. yFXFXzFiF@@@@@@@O@++@)(@'&@# @@@@@@@V=%atan2TFFFF@б@гh%floatFFFF@@ @@@k3@o]@A@@б@гy%floatFFFF@@ @@@l@@г%floatFFFF@@ @@@m@@@@@n!@@@'@@o$* @@0caml_atan2_floatB@%atan2AA@AFFFG@'unboxedFFFF@@FFFF@'noallocFGFG@@FF@: [atan2 y x] returns the arc tangent of [y /. x]. The signs of [x] and [y] are used to determine the quadrant of the result. Result is in radians and is between [-pi] and [pi]. G G GG@@@@@@@P@,,@)(@'&@# @T@@@@@@i=%hypotUGGGG@б@г預%float&GG'GG@@ @@@p3(''(((((@^@A@@б@г%float7GG8GG@@ @@@q@@г%floatDGGEGG@@ @@@r@@@@@s!@@@'@@t$* @@0caml_hypot_floatB@*caml_hypotAA@AXGGYHH.@'unboxed_HH`HH!@@cHHdHH"@'noallocjHH&kHH-@@nHH#@ 9 [hypot x y] returns [sqrt(x *. x + y *. y)], that is, the length of the hypotenuse of a right-angled triangle with sides of length [x] and [y], or, equivalently, the distance of the point [(x,y)] to origin. If one of [x] or [y] is infinite, returns [infinity] even if the other is [nan]. @since 4.00 {H/H/|I\Im@@@@@@@Q@,,@)(@'&@# @@@@@@@i=$coshVIoIxIoI|@б@гj%floatIoIIoI@@ @@@u3@^@A@@гy%floatIoIIoI@@ @@@v@@@@@w@@/caml_cosh_floatA@$coshA@AIoIoII@'unboxedIIII@@IIII@'noallocIIII@@II@) - Hyperbolic cosine. Argument is in radians. IIII@@@@@@@R@++@)(@'&@# @C@@@@@@V=$sinhW IJ IJ@б@гؠ%floatIJIJ @@ @@@x3@o]@A@@г砐%float$IJ%IJ@@ @@@y@@@@@z@@/caml_sinh_floatA@$sinhA@A4II5J1JJ@'unboxed;J1J6<J1J=@@?J1J3@J1J>@'noallocFJ1JBGJ1JI@@JJ1J?@ + Hyperbolic sine. Argument is in radians. WJKJKXJKJ{@@@@@@@pS@++@)(@'&@# @u@@@@@@V=$tanhXxJ}JyJ}J@б@гF%floatJ}JJ}J@@ @@@{3@o]@A@@гU%floatJ}JJ}J@@ @@@|@@@@@}@@/caml_tanh_floatA@$tanhA@AJ}J} JJ@'unboxed JJ JJ@@ JJ JJ@'noalloc JJ JJ@@ JJ@ . Hyperbolic tangent. Argument is in radians.  JJ JK@@@@@@@T@++@)(@'&@# @㐠@@@@@@V=%acoshY KK KK@б@г%float KK KK@@ @@@~3@o]@A@@гà%float  KK   KK%@@ @@@@@@@@@@0caml_acosh_floatA@*caml_acoshA@A  KK  KHKa@'unboxed  KHKM  KHKT@@  KHKJ  KHKU@'noalloc " KHKY # KHK`@@ & KHKV@s Hyperbolic arc cosine. The argument must fall within the range [[1.0, inf]]. Result is in radians and is between [0.0] and [inf]. @since 4.13  3KbKb 4LL@@@@@@@ LU@++@)(@'&@# @ Q@@@@@@V=%asinhZ TLL ULL@б@г "%float _LL `LL@@ @@@3 a ` ` a a a a a@o]@A@@г 1%float nLL  oLL%@@ @@@@@@@@@@0caml_asinh_floatA@*caml_asinhA@A ~LL LHLa@'unboxed LHLM LHLT@@ LHLJ LHLU@'noalloc LHLY LHL`@@ LHLV@ᐠ  Hyperbolic arc sine. The argument and result range over the entire real line. Result is in radians. @since 4.13  LbLb LL@@@@@@@ V@++@)(@'&@# @ @@@@@@V=%atanh[ LL LL@б@г %float LL LL@@ @@@3        @o]@A@@г %float LM LM@@ @@@@@@@@@@0caml_atanh_floatA@*caml_atanhA@A LL M*MC@'unboxed M*M/ M*M6@@ M*M, M*M7@'noalloc M*M; M*MB@@!M*M8@O Hyperbolic arc tangent. The argument must fall within the range [[-1.0, 1.0]]. Result is in radians and ranges over the entire real line. @since 4.13 ! MDMD!%MM@@@@@@@!(W@++@)(@'&@# @i!-@@@@@@V=$ceil\!0'MM!1'MM@б@г %float!;'MN!<'MN@@ @@@3!=!<!<!=!=!=!=!=@o]@A@@г! %float!J'MN !K'MN@@ @@@@@@@@@@/caml_ceil_floatA@$ceilA@A!Z'MM![(N*NC@'unboxed!a(N*N/!b(N*N6@@!e(N*N,!f(N*N7@'noalloc!l(N*N;!m(N*NB@@!p(N*N8@ Round above to an integer value. [ceil f] returns the least integer value greater than or equal to [f]. The result is returned as a float. !})NDND!~+NN@@@@@@@!X@++@)(@'&@# @!@@@@@@V=%floor]!-NN!-NN@б@г!l%float!-NN!-NN@@ @@@3!!!!!!!!@o]@A@@г!{%float!-NN!-NN@@ @@@@@@@@@@0caml_floor_floatA@%floorA@A!-NN!.OO5@'unboxed!.OO!!.OO(@@!.OO!.OO)@'noalloc!.OO-!.OO4@@!.OO*@ + Round below to an integer value. [floor f] returns the greatest integer value less than or equal to [f]. The result is returned as a float. !/O6O6!2OO@@@@@@@"Y@++@)(@'&@# @ E" @@@@@@V=)abs_float^" 4OO" 4OO@б@г!ڠ%float"4OO"4OO@@ @@@3""""""""@o]@A@@г!預%float"&4OO"'4OO@@ @@@@@@@@@@)%absfloatAA @@@"54OO"64OP@ 2 [abs_float f] returns the absolute value of [f]. "C5PP"D5PP?@@@@@@@"\Z@@@ "X@@@@@@7(copysign_"[7PAPJ"\7PAPR@б@г")%float"f7PAPU"g7PAPZ@@ @@@3"h"g"g"h"h"h"h"h@Pe>@A@@б@г":%float"w7PAP^"x7PAPc@@ @@@@@г"G%float"7PAPg"7PAPl@@ @@@@@@@@!@@@'@@$* @@3caml_copysign_floatB@-caml_copysignAA@A"7PAPA"9PP@'unboxed"9PP"9PP@@"9PP"9PP@'noalloc"9PP"9PP@@"9PP@ [copysign x y] returns a float whose absolute value is that of [x] and whose sign is that of [y]. If [x] is [nan], returns [nan]. If [y] is [nan], returns either [x] or [-. x], but it is not specified which. @since 4.00 ":PP">QQ@@@@@@@"[@,,@)(@'&@# @!"ِ@@@@@@i=)mod_float`"@QQ"@QQ@б@г"%float"@QQ"@QQ@@ @@@3""""""""@^@A@@б@г"%float"@QQ"@QQ@@ @@@@@г"Ƞ%float#@QQ#@QQ@@ @@@@@@@@!@@@'@@$* @@/caml_fmod_floatB@$fmodAA@A#@QQ#ARR @'unboxed# ARR #!ARR@@#$ARR #%ARR@'noalloc#+ARR#,ARR@@#/ARR@!| [mod_float a b] returns the remainder of [a] with respect to [b]. The returned value is [a -. n *. b], where [n] is the quotient [a /. b] rounded towards zero to an integer. #<BR!R!#=DRR@@@@@@@#U\@,,@)(@'&@# @!#Z@@@@@@i=%frexpa#]FRR#^FRR@б@г#+%float#hFRR#iFRR@@ @@@3#j#i#i#j#j#j#j#j@^@A@@В@г#>%float#{FRR#|FRR@@ @@@@@@г#^#int#FRS#FRS@@ @@@"@@@@@ @@) @@@/ @@,2@@0caml_frexp_floatAA!@@@#FRR#FRS@! [frexp f] returns the pair of the significant and the exponent of [f]. When [f] is zero, the significant [x] and the exponent [n] of [f] are equal to zero. When [f] is non-zero, they are defined by [f = x *. 2 ** n] and [0.5 <= x < 1.0]. #GSS#KST@@@@@@@#]@@@!#Ð@@@@@@Q%ldexpb#NTT'#NTT,@б@г#%float#NTT0#NTT5@@ @@@3########@j>@A@'unboxed#NTT8#NTT?@@#NTT6#NTT@@@б@г##int#NTTF#NTTI@@ @@@@(untagged#NTTL#NTTT@@#NTTJ#NTTU@@г#Ƞ%float$NTT[$NTT`@@ @@@4@'unboxed$NTTc$NTTj@@$NTTa$NTTk@@@)@@B$NTTE$NTTl@@@J@@G$NTT/@@0caml_ldexp_floatB@8caml_ldexp_float_unboxedAB@A$'NTT$(OToT@'noalloc$.OToT$/OToT@@$2OToT @" $ [ldexp x n] returns [x *. 2 ** n]. $?PTT$@PTT@@@@@@@$X^@!!@@@"$Y@@@@@@~.$modfc$\RTT$]RTT@б@г$*%float$gRTT$hRTT@@ @@@3$i$h$h$i$i$i$i$i@O@A@@В@г$=%float$zRTT${RTT@@ @@@@@@г$L%float$RTT$RTT@@ @@@"@@@@@ @@) @@@/ @@,2@@/caml_modf_floatAA"@@@$RTT$RTU@"퐠 J [modf f] returns the pair of the fractional and integral part of [f]. $SUU$TUNU`@@@@@@@$_@@@"$@@@@@@Q%floatd$VUbUk$VUbUp@б@г$#int$VUbUs$VUbUv@@ @@@3$$$$$$$$@j>@A@@г$%float$VUbUz$VUbU@@ @@@@@@@@@@+%floatofintAA#=@@@$VUbUb$VUbU@#< ! Same as {!Stdlib.float_of_int}. $WUU$WUU@@@@@@@%`@@@#M%@@@@@@7,float_of_inte%YUU%YUU@б@г$#int%YUU% YUU@@ @@@3%!% % %!%!%!%!%!@Pe>@A@@г$%float%.YUU%/YUU@@ @@@@@@@@@@+%floatofintAA#@@@%=YUU%>YUU@# ' Convert an integer to floating-point. %KZUU%LZUV@@@@@@@%da@@@#%`@@@@@@7(truncatef%c\VV$%d\VV,@б@г%1%float%n\VV/%o\VV4@@ @@@3%p%o%o%p%p%p%p%p@Pe>@A@@г%Q#int%}\VV8%~\VV;@@ @@@@@@@@@@+%intoffloatAA#۠@@@%\VV%\VVK@#ڐ ! Same as {!Stdlib.int_of_float}. %]VLVL%]VLVr@@@@@@@%b@@@#%@@@@@@7,int_of_floatg%_VtV}%_VtV@б@г%%float%_VtV%_VtV@@ @@@3%%%%%%%%@Pe>@A@@г%#int%_VtV%_VtV@@ @@@@@@@@@@+%intoffloatAA$*@@@%_VtVt%_VtV@$) Truncate the given floating-point number to an integer. The result is unspecified if the argument is [nan] or falls outside the range of representable integers. %`VV%bW0WV@@@@@@@&c@@@$:%@@@@@@7(infinityh&dWXW\&dWXWd@г%͠%float& dWXWg& dWXWl@@ @@@3& & & & & & & & @Nc<@A@@@&dWXWX @$a4 Positive infinity. &!eWmWm&"eWmW@@@@@@@&:d@@@$q&5@@@@@@!,neg_infinityi&8gWW&9gWW@г&%float&AgWW&BgWW@@ @@@3&C&B&B&C&C&C&C&C@8K6@A@@@&KgWW @$4 Negative infinity. &XhWW&YhWW@@@@@@@&qe@@@$&l@@@@@@!#nanj&ojWW&pjWW@г&;%float&xjWW&yjWW@@ @@@3&z&y&y&z&z&z&z&z@8K6@A@@@&jWW @$ϐ  A special floating-point value denoting the result of an undefined operation such as [0.0 /. 0.0]. Stands for 'not a number'. Any floating-point operation with [nan] as argument returns [nan] as result, unless otherwise specified in IEEE 754 standard. As for floating-point comparisons, [=], [<], [<=], [>] and [>=] return [false] and [<>] returns [true] if one or both of their arguments is [nan]. [nan] is a quiet NaN since 5.1; it was a signaling NaN before. &kWW&sY{Y@@@@@@@&f@@@$&@@@@@@!)max_floatk&uYY&uYY@г&r%float&uYY&uYY@@ @@@3&&&&&&&&@8K6@A@@@&uYY @% 4 The largest positive finite value of type [float]. &vYY&vYZ@@@@@@@&g@@@%&ڐ@@@@@@!)min_floatl&xZZ&xZZ!@г&%float&xZZ$&xZZ)@@ @@@3&&&&&&&&@8K6@A@@@&xZZ @%= J The smallest positive, non-zero, non-denormalized value of type [float]. &yZ*Z*&yZ*Zy@@@@@@@'h@@@%M'@@@@@@!-epsilon_floatm'{Z{Z'{Z{Z@г&ࠐ%float'{Z{Z'{Z{Z@@ @@@3''''''''@8K6@A@@@''{Z{Z{ @%t s The difference between [1.0] and the smallest exactly representable floating-point number greater than [1.0]. '4|ZZ'5}Z[ @@@@@@@'Mi@@@%'H@@@@@@!A+'fpclassnN'L[['M[[@@;@@)FP_normalo@@'V[["'W[[+@% " Normal number, none of the below 'd[[6'e[[]@@@@@@@'}k@,FP_subnormalp@@'m[^[`'n[^[n@% 1 Number very close to 0.0, has reduced precision '{[^[v'|[^[@@@@@@@'l@'FP_zeroq@@'[['[[@%Ґ7 Number is 0.0 or -0.0 '[['[[@@@@@@@'m@+FP_infiniter@@'[['[[@%鐠 ) Number is positive or negative infinity '[['[\(@@@@@@@'n@&FP_nans@@'\)\+'\)\3@& 0 Not a number: result of an undefined operation '\)\A'\)\v@@@@@@@'o@@@A@@@@@'[[@& h The five classes of floating-point numbers, as determined by the {!Stdlib.classify_float} function. '\w\w'\\@@@@@@@A@'j@@#@s@@@&&'ꐠ@@@@@@#~~'[^[b|@m@@@&7'}|@||@@@|@|@#xx'[[v@g@@@y&H( wv@vv@@@v@v@#rr( [[p@a@@@s&Y(qp@pp@@@p@p@#ll(\)\-j@[@@@m&j(.kj@jj@@@j@j@@A@f&u(9ed@dd@@@d@d@@3(1(0(0(1(1(1(1(1@&@As@.classify_floatt(?\\(@\\@б@г( %float(J\](K\]@@ @@@3(L(K(K(L(L(L(L(L@ @A@'unboxed(W\] (X\]@@([\](\\]@@г'fpclass(d\](e\]@@ @@@@@@ @@(m\] @@3caml_classify_floatA@;caml_classify_float_unboxedA@@(u\\(v] ]a@'noalloc(|] ]Y(}] ]`@@(] ]V @&͐ m Return the class of the given floating-point number: normal, subnormal, zero, infinite, or not a number. (]b]b(]]@@@@@@@(p@  @@@&(@@@@@@S.(( T {1 String operations} More string operations are provided in module {!String}. (]](^.^0@@@@@@3((((((((@ezG@A!^u(^2^6(^2^;@б@г(&string(^2^>(^2^D@@ @@@@@б@г(&string(^2^H(^2^N@@ @@@)@@г(&string(^2^R(^2^X@@ @@@6@@@@@9@@@%@@<( @@@(^2^2@'? String concatenation. Right-associative operator, see {!Ocaml_operators} for more information. @raise Invalid_argument if the result is longer then than {!Sys.max_string_length} bytes. (^Y^Y)_#_%@@@@@@@)q@@@'O)@@@@@@[)!) X {1 Character operations} More character operations are provided in module {!Char}. )_'_')__@@@@@@3))))))))@mh1@A+int_of_charv))__)*__@б@г)$char)4__)5__@@ @@@@@г)#int)A__)B__@@ @@@'@@@@@*@@)%identityAA'@@@)P__)Q__@' ( Return the ASCII code of the argument. )^__)___@@@@@@@)wr@@@')s@@@@@@O+char_of_intw)v__)w__@б@г)U#int)__)__@@ @@@3))))))))@hc>@A@@г)_$char)__)_`@@ @@@@@@@@@@@)__ @'萠 | Return the character with the given ASCII code. @raise Invalid_argument if the argument is outside the range 0--255. )``)`f`@@@@@@@)s@@@')@@@@@@1))ɐ5 {1 Unit operations} )``)``@@@@@@3))))))))@CX1@A&ignorex)``)``@б@А!a@O@)``)``@@г)$unit)``)``@@ @@@%@@@@@(@@'%ignoreAA(F@@@)``)``@(E ! Discard the value of its argument and return [()]. For instance, [ignore(f x)] discards the result of the side-effecting function [f]. It is equivalent to [f x; ()], except that the latter may generate a compiler warning; writing [ignore(f x)] instead avoids the warning. *``*aa@@@@@@@*t@@@(V*@@@@@@M*(*' ! {1 String conversion functions} *$aa*%ab@@@@@@3*#*"*"*#*#*#*#*#@_Z7@A.string_of_booly*0bb"*1bb0@б@г)$bool*;bb3*<bb7@@ @@@@@г*&string*Hbb;*IbbA@@ @@@'@@@@@*@@@*Sbb @( Return the string representation of a boolean. As the returned values may be shared, the user should not modify them directly. *`bBbB*abb@@@@@@@*yu@@@(*t@@@@@@I2bool_of_string_optz*wbb*xbb@б@г*M&string*bb*bb@@ @@@3********@b]8@A@@г)&option*bb*bb@г*Z$bool*bb*bb@@ @@@@@@@@@ @@@$@@!'@@@*bb@( u Convert the given string to a boolean. Return [None] if the string is not ["true"] or ["false"]. @since 4.05 *bb*crct@@@@@@@*v@@*@)*̐@@@@@@@.bool_of_string{*cvcz*cvc@б@г*&string*cvc*cvc@@ @@@3********@Yn8@A@@г*$bool*cvc*cvc@@ @@@@@@@@@@@*cvcv @)A u Same as {!Stdlib.bool_of_string_opt}, but raise [Invalid_argument "bool_of_string"] instead of returning [None]. +cc+cd@@@@@@@+w@@@)Q+@@@@@@1-string_of_int|+dd+dd'@б@г*#int+#dd*+$dd-@@ @@@3+%+$+$+%+%+%+%+%@J_8@A@@г*&string+2dd1+3dd7@@ @@@@@@@@@@@+=dd @) = Return the string representation of an integer, in decimal. +Jd8d8+Kd8dz@@@@@@@+cx@@@)+^@@@@@@11int_of_string_opt}+ad|d+bd|d@б@г+7&string+ld|d+md|d@@ @@@3+n+m+m+n+n+n+n+n@J_8@A@@г*۠&option+{d|d+|d|d@г+Y#int+d|d+d|d@@ @@@@@@@@@ @@@$@@!'@@@+d|d|@)␠  Convert the given string to an integer. The string is read in decimal (by default, or if the string begins with [0u]), in hexadecimal (if it begins with [0x] or [0X]), in octal (if it begins with [0o] or [0O]), or in binary (if it begins with [0b] or [0B]). The [0u] prefix reads the input as an unsigned integer in the range [[0, 2*max_int+1]]. If the input exceeds {!max_int} it is converted to the signed integer [min_int + input - max_int - 1]. The [_] (underscore) character can appear anywhere in the string and is ignored. Return [None] if the given string is not a valid representation of an integer, or if the integer represented exceeds the range of integers representable in type [int]. @since 4.05 +dd+gg@@@@@@@+y@@*@)+@@@@@@@-int_of_string~+gg+gg@б@г+&string+gg+gg@@ @@@3++++++++@Yn8@A@@г+#int+gg+gg@@ @@@@@@@@@@2caml_int_of_stringAA*1@@@+gg+gg@*0 j Same as {!Stdlib.int_of_string_opt}, but raise [Failure "int_of_string"] instead of returning [None]. +gg+hhQ@@@@@@@, z@@@*A,@@@@@@7/string_of_float,hShW, hShf@б@г+֠%float,hShi,hShn@@ @@@3,,,,,,,,@Pe>@A@@г+&string,"hShr,#hShx@@ @@@@@@@@@@@,-hShS @*z Return a string representation of a floating-point number. This conversion can involve a loss of precision. For greater control over the manner in which the number is printed, see {!Printf}. ,:hyhy,;iiG@@@@@@@,S{@@@*,N@@@@@@13float_of_string_opt,QiIiM,RiIi`@б@г,'&string,\iIib,]iIih@@ @@@3,^,],],^,^,^,^,^@J_8@A@@г+ˠ&option,kiIir,liIix@г,8%float,uiIil,viIiq@@ @@@@@@@@@ @@@$@@!'@@@,iIiI@*Ґ a Convert the given string to a float. The string is read in decimal (by default) or in hexadecimal (marked by [0x] or [0X]). The format of decimal floating-point numbers is [ [-] dd.ddd (e|E) [+|-] dd ], where [d] stands for a decimal digit. The format of hexadecimal floating-point numbers is [ [-] 0(x|X) hh.hhh (p|P) [+|-] dd ], where [h] stands for an hexadecimal digit and [d] for a decimal digit. In both cases, at least one of the integer and fractional parts must be given; the exponent part is optional. The [_] (underscore) character can appear anywhere in the string and is ignored. Depending on the execution platforms, other representations of floating-point numbers can be accepted, but should not be relied upon. Return [None] if the given string is not a valid representation of a float. @since 4.05 ,iyiy,ll@@@@@@@,|@@*@*,@@@@@@@/float_of_string,ll,ll@б@г,&string,ll,lm@@ @@@3,,,,,,,,@Yn8@A@@г,%float,lm,lm @@ @@@@@@@@@@4caml_float_of_stringAA+!@@@,ll,lm$@+ n Same as {!Stdlib.float_of_string_opt}, but raise [Failure "float_of_string"] instead of returning [None]. ,m%m%,mZm@@@@@@@,}@@@+1,@@@@@@7--5 {1 Pair operations} ,mm-mm@@@@@@3,,,,,,,,@I^7@A#fst- mm- mm@б@В@А!a@O@-mm-mm@@@А!b@O@'-)mm-*mm@@@@@@@0@@А!a4-6mm-7mm@@@$@@9@@'%field0AA+@@@-Amm-Bmm@+ ' Return the first component of a pair. -Omm-Pmn @@@@@@@-h~@@@+-d@@@@@@^#snd-g n n-h n n@б@В@А!a@O@3-t-s-s-t-t-t-t-t@wr>@A-z n n-{ n n@@@А!b@O@- n n!- n n#@@@@@@@@@А!b- n n'- n n)@@@@@!@@'%field1AA+@@@- n n - n n5@+퐠 ( Return the second component of a pair. - n6n6- n6nc@@@@@@@-@@@+-@@@@@@F--ϐ N {1 List operations} More list operations are provided in module {!List}. - nfnf-nn@@@@@@3--------@Xm7@A!@-nn-nn@б@г-`$list-nn-nn@А!a@O@ -nn-nn@@@ @@@'@@б@г-|$list-nn.nn@А!a7.nn.nn@@@"@@@ > @@г-$list.nn.nn@А!a1L.nn.nn@@@7@@@ S @@@@@ V@@@6@@ Y9@@@.*nn@,w [l0 @ l1] appends [l1] to [l0]. Same function as {!List.append}. Right-associative operator, see {!Ocaml_operators} for more information. @since 5.1 this function is tail-recursive. .7nn.8oo@@@@@@@.P@@&@,.K@@@@@@x.Y.X y {1 Input/output} Note: all input/output functions can raise [Sys_error] when the system calls they invoke fail. .Uoo.Vpp%@@@@@@3.T.S.S.T.T.T.T.T@1@AA+*in_channelO.bp'p,.cp'p6@@;@@@A@@@@@.gp'p'@,< The type of input channel. .tp7p7.up7pX@@@@@@@@@.@@@A@,.@@@@@@@+ @A++out_channelP.pZp_.pZpj@@;@@*A@@@@@.pZpZ@,ݐ= The type of output channel. . pkpk. pkp@@@@@@@@@.@@@A@,.@@@@@@@3........@UOI@A!@%stdin."pp."pp@г]*in_channel."pp."pp@@ @@@3........@>8@A@@@."pp @- % The standard input for the process. .#pp.#pp@@@@@@@.@@@-&.ꐠ@@@@@@!&stdout.%pp.%pp@гj+out_channel.%pp.%pp@@ @@@3........@8K6@A@@@/%pp @-M & The standard output for the process. / &pp/&pq@@@@@@@/&@@@-]/!@@@@@@!&stderr/$(qq/%(qq"@г+out_channel/-(qq%/.(qq0@@ @@@3///././/////////@8K6@A@@@/7(qq @- , The standard error output for the process. /D)q1q1/E)q1qb@@@@@@@/]@@@-/X@@@@@@!/f/e ) {2 Output functions on standard output} /b,qeqe/c,qeq@@@@@@3/a/`/`/a/a/a/a/a@3F1@A*print_char/n.qq/o.qq@б@г/H$char/y.qq/z.qq@@ @@@@@г/4$unit/.qq/.qq@@ @@@'@@@@@*@@@/.qq @-ސ ' Print a character on standard output. //qq//qq@@@@@@@/@@@-/@@@@@@I,print_string/1qq/1qq@б@г/&string/1qq/1qq@@ @@@3////////@b]8@A@@г/}$unit/1qq/1qr@@ @@@@@@@@@@@/1qq @.' $ Print a string on standard output. /2rr/2rr,@@@@@@@0@@@.7/@@@@@@1+print_bytes/4r.r2/4r.r=@б@г/Р%bytes0 4r.r@0 4r.rE@@ @@@30 0 0 0 0 0 0 0 @J_8@A@@г/Ơ$unit04r.rI04r.rM@@ @@@@@@@@@@@0#4r.r. @.p : Print a byte sequence on standard output. @since 4.02 005rNrN016r|r@@@@@@@0I@@@.0D@@@@@@1)print_int0G8rr0H8rr@б@г0&#int0R8rr0S8rr@@ @@@30T0S0S0T0T0T0T0T@J_8@A@@г0$unit0a8rr0b8rr@@ @@@@@@@@@@@0l8rr @. 3 Print an integer, in decimal, on standard output. 0y9rr0z9rr@@@@@@@0@@@.0@@@@@@1+print_float0;rr0;rr@б@г0^%float0;rr0;rr@@ @@@300000000@J_8@A@@г0X$unit0;rs0;rs@@ @@@ @@@@@!@@@0;rr @/ Print a floating-point number, in decimal, on standard output. The conversion of the number to a string uses {!string_of_float} and can involve a loss of precision. 0<ss0?ss@@@@@@@0@@@/0֐@@@@@@1-print_endline0Ass0Ass@б@г0&string0Ass0Ass@@ @@@"300000000@J_8@A@@г0$unit0Ass0Ass@@ @@@#@@@@@$@@@0Ass @/K c Print a string, followed by a newline character, on standard output and flush standard output. 1 Bss1 CttF@@@@@@@1$@@@/[1@@@@@@1-print_newline1"EtHtL1#EtHtY@б@г0۠$unit1-EtHt\1.EtHt`@@ @@@%31/1.1.1/1/1/1/1/@J_8@A@@г0ꠐ$unit1<EtHtd1=EtHth@@ @@@&@@@@@'@@@1GEtHtH @/ Print a newline character on standard output, and flush standard output. This can be used to simulate line buffering of standard output. 1TFtiti1UHtt@@@@@@@1m@@@/1h@@@@@@11v1u ( {2 Output functions on standard error} 1rKuu1sKuu.@@@@@@31q1p1p1q1q1q1q1q@CX1@A*prerr_char1~Mu0u41Mu0u>@б@г1X$char1Mu0uA1Mu0uE@@ @@@(@@г1D$unit1Mu0uI1Mu0uM@@ @@@)'@@@@@**@@@1Mu0u0 @/ & Print a character on standard error. 1NuNuN1NuNuy@@@@@@@1@@@/1@@@@@@I,prerr_string1Pu{u1Pu{u@б@г1&string1Pu{u1Pu{u@@ @@@+311111111@b]8@A@@г1$unit1Pu{u1Pu{u@@ @@@,@@@@@-@@@1Pu{u{ @07 # Print a string on standard error. 1Quu1Quu@@@@@@@2@@@0G2 @@@@@@1+prerr_bytes2Suu2Suu@б@г1ࠐ%bytes2Suu2Suu@@ @@@.322222222@J_8@A@@г1֠$unit2(Suu2)Suu@@ @@@/@@@@@0@@@23Suu @0 9 Print a byte sequence on standard error. @since 4.02 2@Tuu2AUvv%@@@@@@@2Y@@@02T@@@@@@1)prerr_int2WWv'v+2XWv'v4@б@г26#int2bWv'v72cWv'v:@@ @@@132d2c2c2d2d2d2d2d@J_8@A@@г2$unit2qWv'v>2rWv'vB@@ @@@2@@@@@3@@@2|Wv'v' @0ɐ 2 Print an integer, in decimal, on standard error. 2XvCvC2XvCvz@@@@@@@2@@@02@@@@@@1+prerr_float2Zv|v2Zv|v@б@г2n%float2Zv|v2Zv|v@@ @@@4322222222@J_8@A@@г2h$unit2Zv|v2Zv|v@@ @@@5@@@@@6@@@2Zv|v| @1 Print a floating-point number, in decimal, on standard error. The conversion of the number to a string uses {!string_of_float} and can involve a loss of precision. 2[vv2^w(wO@@@@@@@2@@@1"2搠@@@@@@1-prerr_endline2`wQwU2`wQwb@б@г2&string2`wQwe2`wQwk@@ @@@7322222222@J_8@A@@г2$unit3`wQwo3`wQws@@ @@@8@@@@@9@@@3`wQwQ @1[ ` Print a string, followed by a newline character on standard error and flush standard error. 3awtwt3bww@@@@@@@34@@@1k3/@@@@@@1-prerr_newline32dww33dww@б@г2렐$unit3=dww3>dww@@ @@@:33?3>3>3?3?3?3?3?@J_8@A@@г2$unit3Ldww3Mdww@@ @@@;@@@@@<@@@3Wdww @1 K Print a newline character on standard error, and flush standard error. 3deww3efx7xL@@@@@@@3}@@@13x@@@@@@133 ' {2 Input functions on standard input} 3ixOxO3ixOx{@@@@@@333333333@CX1@A)read_line3kx}x3kx}x@б@г3G$unit3kx}x3kx}x@@ @@@=@@г3q&string3kx}x3kx}x@@ @@@>'@@@@@?*@@@3kx}x} @1  Flush standard output, then read characters from standard input until a newline character is encountered. Return the string of all characters read, without the newline character at the end. @raise End_of_file if the end of the file is reached at the beginning of line. 3lxx3tyy@@@@@@@3@@@23Ґ@@@@@@I,read_int_opt3vyy3vyy@б@г3$unit3vyy3vyy@@ @@@@333333333@b]8@A@@г3O&option3vyy3vyy@г3͠#int3vyy3vyy@@ @@@A@@@@@@C @@@$@@D!'@@@4 vyy@2V Flush standard output, then read one line from standard input and convert it to an integer. Return [None] if the line read is not a valid representation of an integer. @since 4.05 4wyy4|zz@@@@@@@4/@@*@2f4*@@@@@@@(read_int4-~zz4.~zz@б@г3栐$unit48~zz49~zz@@ @@@E34:49494:4:4:4:4:@Yn8@A@@г4#int4G~zz4H~zz@@ @@@F@@@@@G@@@4R~zz @2 e Same as {!Stdlib.read_int_opt}, but raise [Failure "int_of_string"] instead of returning [None]. 4_zz4`{{2@@@@@@@4x@@@24s@@@@@@1.read_float_opt4v{4{84w{4{F@б@г4/$unit4{4{H4{4{L@@ @@@H344444444@J_8@A@@г3&option4{4{V4{4{\@г4]%float4{4{P4{4{U@@ @@@I@@@@@@K @@@$@@L!'@@@4{4{4@2 Flush standard output, then read one line from standard input and convert it to a floating-point number. Return [None] if the line read is not a valid representation of a floating-point number. @since 4.05 4{]{]4|<|>@@@@@@@4@@*@34ː@@@@@@@*read_float4|@|D4|@|N@б@г4$unit4|@|Q4|@|U@@ @@@M344444444@Yn8@A@@г4%float4|@|Y4|@|^@@ @@@N@@@@@O@@@4|@|@ @3@ i Same as {!Stdlib.read_float_opt}, but raise [Failure "float_of_string"] instead of returning [None]. 5|_|_5||@@@@@@@5@@@3P5@@@@@@15"5!> {2 General output functions} 5||5||@@@@@@355555555@CX1@AA+)open_flagQ5+||5,|}@@;@@+Open_rdonly@@55}} 56}}@33 open for reading. 5C}}5D}}3@@@@@@@5\@+Open_wronly@@5L}4}65M}4}C@33 open for writing. 5Z}4}I5[}4}a@@@@@@@5s@+Open_append@@5c}b}d5d}b}q@3 2 open for appending: always write at end of file. 5q}b}w5r}b}@@@@@@@5@*Open_creat@@5z}}5{}}@3Ȑ ' create the file if it does not exist. 5}}5}}@@@@@@@5@*Open_trunc@@5}}5}}@3ߐ & empty the file if it already exists. 5}~5}~1@@@@@@@5@)Open_excl@@5~2~45~2~?@3 1 fail if Open_creat and the file already exists. 5~2~G5~2~}@@@@@@@5@+Open_binary@@5~~~5~~~@4 & open in binary mode (no conversion). 5~~~5~~~@@@@@@@5@)Open_text@@5~~5~~@4$ . open in text mode (may perform conversions). 5~~5~@@@@@@@5@-Open_nonblock@@5 5@4;< open in non-blocking mode. 55>@@@@@@@6@@@A@@@@@5||@4L G Opening modes for {!Stdlib.open_out_gen} and {!Stdlib.open_in_gen}. 6 ??6 p@@@@@@@A@6%@@#@@@@ᠰ4a6%@@@@@@#ڠڰ6$}4}8@@@@۠4r66@@@@@@#Ԡ԰65}b}f@@@@ՠ46G@@@@@@#Πΰ6F}}@@@@Ϡ46X@@@@@@#ȠȰ6W}}@@@@ɠ46i@@@@@@# °6h~2~6@@@@à46z@@@@@@#6y~~~@@@@46@@@@@@#6~~@@@@46@@@@@@#6 @@@@46@@@@@@@A@46@@@@@@@@(open_out66@б@г6&string66@@ @@@V366666666@@A@@гJ+out_channel66@@ @@@W@@@@@X@@@6 @5. Open the named file for writing, and return a new output channel on that file, positioned at the beginning of the file. The file is truncated to zero length if it already exists. It is created if it does not already exists. 66r@@@@@@@7@@@5>7@@@@@@1,open_out_bin77@б@г6۠&string77@@ @@@Y377777777@J_8@A@@г+out_channel77 @@ @@@Z@@@@@[@@@7* @5w Same as {!Stdlib.open_out}, but the file is opened in binary mode, so that no translation takes place during writes. On operating systems that do not distinguish between text mode and binary mode, this function behaves like {!Stdlib.open_out}. 7778@@@@@@@7P@@@57K@@@@@@1,open_out_gen7N7O@б@г6֠$list7Y7Z@г8)open_flag7c7d@@ @@@\37e7d7d7e7e7e7e7e@TiB@A@@@ @@@^ @@б@г7M#int7y7z@@ @@@_@@б@г7S&string77@@ @@@`%@@г +out_channel77@@ @@@a2@@@@@b5@@@%@@c8( @@@8@@d;A@@@7@5󐠠 L [open_out_gen mode perm filename] opens the named file for writing, as described above. The extra argument [mode] specifies the opening mode. The extra argument [perm] specifies the file permissions, in case the file must be created. {!Stdlib.open_out} and {!Stdlib.open_out_bin} are special cases of this function. 77Gd@@@@@@@7@@!@67ǐ@@@@@@Z%flush7fj7fo@б@г I+out_channel7fr7f}@@ @@@e377777777@s8@A@@г7$unit7f7f@@ @@@f@@@@@g@@@7ff @6< Flush the buffer associated with the given output channel, performing all pending writes on that channel. Interactive programs must be careful about flushing standard output and standard error at the right time. 777i@@@@@@@8@@@6L8@@@@@@1)flush_all8ko8kx@б@г7̠$unit8k{8k@@ @@@h38 888 8 8 8 8 @J_8@A@@г7۠$unit8-k8.k@@ @@@i@@@@@j@@@88kk @6 0 Flush all open output channels; ignore errors. 8E8F@@@@@@@8^@@@68Y@@@@@@1+output_char8\8]@б@г ۠+out_channel8g8h@@ @@@k38i8h8h8i8i8i8i8i@J_8@A@@б@г8G$char8x8y@@ @@@l@@г83$unit88@@ @@@m@@@@@n!@@@'@@o$* @@@8@6 2 Write the character on the given output channel. 88$@@@@@@@8@@@68@@@@@@C-output_string8&*8&7@б@г 6+out_channel8&:8&E@@ @@@p388888888@\q8@A@@б@г8&string8&I8&O@@ @@@q@@г8$unit8&S8&W@@ @@@r@@@@@s!@@@'@@t$* @@@8&&@7; / Write the string on the given output channel. 8XX8X@@@@@@@9@@@7K9@@@@@@C,output_bytes99@б@г +out_channel99@@ @@@u399999999@\q8@A@@б@г8%bytes9.9/@@ @@@v@@г8預$unit9;9<@@ @@@w@@@@@x!@@@'@@y$* @@@9I@7 E Write the byte sequence on the given output channel. @since 4.02 9V9W@@@@@@@9o@@@79j@@@@@@C&output9m 9n @б@г 점+out_channel9x 9y "@@ @@@z39z9y9y9z9z9z9z9z@\q8@A@@б@г9P%bytes9 &9 +@@ @@@{@@б@г9l#int9 /9 2@@ @@@| @@б@г9{#int9 69 9@@ @@@}/@@г9b$unit9 =9 A@@ @@@~<@@@@@?@@@%@@B( @@@7@@E:@@@K@@HN@@@9  @8 [output oc buf pos len] writes [len] characters from byte sequence [buf], starting at offset [pos], to the given output channel [oc]. @raise Invalid_argument if [pos] and [len] do not designate a valid range of [buf]. 9BB9+@@@@@@@9@@$@8%9鐠@@@@@@g0output_substring9-19-A@б@г k+out_channel9-D9-O@@ @@@399999999@8@A@@б@г9Ӡ&string:-S: -Y@@ @@@@@б@г9렐#int:-]:-`@@ @@@ @@б@г9#int:&-d:'-g@@ @@@/@@г9᠐$unit:3-k:4-o@@ @@@<@@@@@?@@@%@@B( @@@7@@E:@@@K@@HN@@@:G--@8 ^ Same as [output] but take a string as argument instead of a byte sequence. @since 4.02 :Tpp:U@@@@@@@:m@@$@8:h@@@@@@g+output_byte:k:l@б@г ꠐ+out_channel:v:w@@ @@@3:x:w:w:x:x:x:x:x@8@A@@б@г:[#int::@@ @@@@@г:B$unit::@@ @@@@@@@@!@@@'@@$* @@@:@8 Write one 8-bit integer (as the single character with that code) on the given output channel. The given integer is taken modulo 256. ::@@@@@@@:@@@8:Ð@@@@@@C1output_binary_int::@б@г E+out_channel::@@ @@@3::::::::@\q8@A@@б@г:#int::@@ @@@@@г:$unit::@@ @@@@@@@@!@@@'@@$* @@@:@9J 5 Write one integer in binary format (4 bytes, big-endian) on the given output channel. The given integer is taken modulo 2{^32}. The only reliable way to read it back is through the {!Stdlib.input_binary_int} function. The format is compatible across all machines for a given version of OCaml. ; ; @@@@@@@;#@@@9Z;@@@@@@C,output_value;!;"@б@г +out_channel;,;-"@@ @@@3;.;-;-;.;.;.;.;.@\q8@A@@б@А!a@R@ ;?&;@(@@г:$unit;H,;I0@@ @@@@@@@@@@@%@@"( @@@;V@9 ~ Write the representation of a structured value of any type to a channel. Circularities and sharing inside the value are detected and preserved. The object can be read back, by the function {!Stdlib.input_value}. See the description of module {!Marshal} for more information. {!Stdlib.output_value} is equivalent to {!Marshal.to_channel} with an empty list of flags. ;c11;dy@@@@@@@;|@@@9;w@@@@@@A(seek_out;z;{@б@г +out_channel;;@@ @@@3;;;;;;;;@Zo8@A@@б@г;j#int;;@@ @@@@@г;Q$unit;;@@ @@@@@@@@!@@@'@@$* @@@;@9 [seek_out chan pos] sets the current writing position to [pos] for channel [chan]. This works only for regular files. On files of other kinds (such as terminals, pipes and sockets), the behavior is unspecified. ;;@@@@@@@;@@@:;Ґ@@@@@@C'pos_out;;@б@г T+out_channel;;@@ @@@3;;;;;;;;@\q8@A@@г;à#int;;@@ @@@@@@@@@@@; @:G  Return the current writing position for the given channel. Does not work on channels opened with the [Open_append] flag (returns unspecified results). For files opened in text mode under Windows, the returned position is approximate (owing to end-of-line conversion); in particular, saving the current position with [pos_out], then going back to this position using [seek_out] will not work. For this programming idiom to work reliably and portably, the file must be opened in binary mode. <<@@@@@@@< @@@:W<@@@@@@12out_channel_length<<@б@г +out_channel<)<*@@ @@@3<+<*<*<+<+<+<+<+@J_8@A@@г< #int<8!<9$@@ @@@@@@@@@@@ > @@ @@@3>> > >>>>>@TiB@A@@@ @@@ @@б@г=#int>"&>#)@@ @@@@@б@г=&string>1->23@@ @@@%@@гܠ*in_channel>>7>?A@@ @@@2@@@@@5@@@%@@8( @@@8@@;A@@@>O@<  [open_in_gen mode perm filename] opens the named file for reading, as described above. The extra arguments [mode] and [perm] specify the opening mode and file permissions. {!Stdlib.open_in} and {!Stdlib.open_in_bin} are special cases of this function. >\BB>]#3P@@@@@@@>u@@!@<>p@@@@@@Z*input_char>s%RV>t%R`@б@г*in_channel>~%Rc>%Rm@@ @@@3>>>>>>>>@s8@A@@г>\$char>%Rq>%Ru@@ @@@@@@@@@@@>%RR @<吠 q Read one character from the given input channel. @raise End_of_file if there are no more characters to read. >&vv>'@@@@@@@>@@@<>@@@@@@1*input_line>)>)@б@гe*in_channel>)>) @@ @@@3>>>>>>>>@J_8@A@@г>&string>) >)@@ @@@@@@@@@@@>) @=.  Read characters from the given input channel, until a newline character is encountered. Return the string of all characters read, without the newline character at the end. @raise End_of_file if the end of the file is reached at the beginning of line. >*>.!@@@@@@@?@@@=>?@@@@@@1%input?0#'?0#,@б@г*in_channel?0#/?0#9@@ @@@3????????@J_8@A@@б@г>蠐%bytes?!0#=?"0#B@@ @@@@@б@г?#int?00#F?10#I@@ @@@ @@б@г?#int??0#M?@0#P@@ @@@/@@г? #int?L0#T?M0#W@@ @@@<@@@@@?@@@%@@B( @@@7@@E:@@@K@@HN@@@?`0##@= ? [input ic buf pos len] reads up to [len] characters from the given channel [ic], storing them in byte sequence [buf], starting at character number [pos]. It returns the actual number of characters read, between 0 and [len] (inclusive). A return value of 0 means that the end of file was reached. A return value between 0 and [len] exclusive means that not all requested [len] characters were read, either because no more characters were available at that time, or because the implementation found it convenient to do a partial read; [input] must be called again to read the remaining characters, if desired. (See also {!Stdlib.really_input} for reading exactly [len] characters.) Exception [Invalid_argument "input"] is raised if [pos] and [len] do not designate a valid range of [buf]. ?m1XX?n?n@@@@@@@?@@$@=?@@@@@@g,really_input?A?A@б@г-*in_channel?A?A@@ @@@3????????@8@A@@б@г?g%bytes?A?A@@ @@@@@б@г?#int?A?A@@ @@@ @@б@г?#int?A?A@@ @@@/@@г?y$unit?A?A@@ @@@<@@@@@?@@@%@@B( @@@7@@E:@@@K@@HN@@@?A@>, N [really_input ic buf pos len] reads [len] characters from channel [ic], storing them in byte sequence [buf], starting at character number [pos]. @raise End_of_file if the end of file is reached before [len] characters have been read. @raise Invalid_argument if [pos] and [len] do not designate a valid range of [buf]. ?B?G.@@@@@@@@@@$@><@@@@@@@g3really_input_string@I04@I0G@б@г*in_channel@I0J@I0T@@ @@@3@@@@@@@@@8@A@@б@г?#int@I0X@ I0[@@ @@@@@г?&string@,I0_@-I0e@@ @@@@@@@@!@@@'@@$* @@@@:I00@> [really_input_string ic len] reads [len] characters from channel [ic] and returns them in a new string. @raise End_of_file if the end of file is reached before [len] characters have been read. @since 4.02 @GJff@HN4E@@@@@@@@`@@@>@[@@@@@@C*input_byte @^PGK@_PGU@б@г*in_channel@iPGX@jPGb@@ @@@3@k@j@j@k@k@k@k@k@\q8@A@@г@L#int@xPGf@yPGi@@ @@@@@@@@@@@@PGG @>А Same as {!Stdlib.input_char}, but return the 8-bit integer representing the character. @raise End_of_file if the end of file was reached. @Qjj@S@@@@@@@@@@@>@@@@@@@10input_binary_intà@U@U@б@гP*in_channel@U@U#@@ @@@3@@@@@@@@@J_8@A@@г@#int@U'@U*@@ @@@@@@@@@@@@U @? Read an integer encoded in binary format (4 bytes, big-endian) from the given input channel. See {!Stdlib.output_binary_int}. @raise End_of_file if the end of file was reached while reading the integer. @V++@Y@@@@@@@@@@@?)@퐠@@@@@@1+input_valueĠ@[ @[@б@г*in_channel@[@[#@@ @@@3@@@@@@@@@J_8@A@@А!a@R@ A ['A [)@@@ @@@@@A[@?` / Read the representation of a structured value, as produced by {!Stdlib.output_value}, and return the corresponding value. This function is identical to {!Marshal.from_channel}; see the description of module {!Marshal} for more information, in particular concerning the lack of type safety. A \**A!`'^@@@@@@@A9@@@?pA4@@@@@@/'seek_inŠA7b`dA8b`k@б@гࠐ*in_channelABb`nACb`x@@ @@@3ADACACADADADADAD@H]8@A@@б@гA'#intASb`|ATb`@@ @@@@@гA$unitA`b`Aab`@@ @@@@@@@@!@@@'@@$* @@@Anb``@? [seek_in chan pos] sets the current reading position to [pos] for channel [chan]. This works only for regular files. On files of other kinds, the behavior is unspecified. A{cA|e?@@@@@@@A@@@?A@@@@@@C&pos_inƠAgAEAgAK@б@г;*in_channelAgANAgAX@@ @@@3AAAAAAAA@\q8@A@@гA#intAgA\AgA_@@ @@@@@@@@@@@AgAA @@  Return the current reading position for the given channel. For files opened in text mode under Windows, the returned position is approximate (owing to end-of-line conversion); in particular, saving the current position with [pos_in], then going back to this position using [seek_in] will not work. For this programming idiom to work reliably and portably, the file must be opened in binary mode. Ah``An @@@@@@@A@@@@Aؐ@@@@@@11in_channel_lengthǠApAp#@б@г*in_channelAp&Ap0@@ @@@3AAAAAAAA@J_8@A@@гAɠ#intAp4Ap7@@ @@@@@@@@@@@Bp @@M b Return the size (number of characters) of the regular file on which the given channel is opened. If the channel is opened on a file that is not a regular file, the result is meaningless. The returned size does not take into account the end-of-line translations that can be performed when reading from a channel opened in text mode. B q88Bv@@@@@@@B&@@@@]B!@@@@@@1(close_inȠB$xB%x@б@г͠*in_channelB/xB0x@@ @@@3B1B0B0B1B1B1B1B1@J_8@A@@гA점$unitB>xB?x@@ @@@@@@@@@@@BIx @@ Close the given channel. Input functions raise a [Sys_error] exception when they are applied to a closed input channel, except [close_in], which does nothing when applied to an already closed channel. BVyBW|@@@@@@@Bo@@@@Bj@@@@@@1.close_in_noerrɠBm~Bn~@б@г*in_channelBx~By~@@ @@@3BzByByBzBzBzBzBz@J_8@A@@гB5$unitB~B~@@ @@@@@@@@@@@B~ @@ߐ , Same as [close_in], but ignore all errors. BB@@@@@@@B@@@@B@@@@@@12set_binary_mode_inʠBB @б@г_*in_channelBB@@ @@@3BBBBBBBB@J_8@A@@б@гB$boolBB!@@ @@@@@гB$unitB%B)@@ @@@@@@@@!@@@'@@$* @@@B@A:  [set_binary_mode_in ic true] sets the channel [ic] to binary mode: no translations take place during input. [set_binary_mode_out ic false] sets the channel [ic] to text mode: depending on the operating system, some translations may take place during input. For instance, under Windows, end-of-lines will be translated from [\r\n] to [\n]. This function has no effect under operating systems that do not distinguish between text mode and binary mode. B**B@@@@@@@C@@@AJC@@@@@@CCC? {2 Operations on large files} C  C /@@@@@@3CCCCCCCC@Uj1@A)LargeFileRC&18C'1A@C?@@Б(seek_outˠC4JRC5JZ@б@г+out_channelC?J]C@Jh@@ @@@3CAC@C@CACACACACA@*@A@@б@гB%int64COJlCPJq@@ @@@@@гC $unitC\JuC]Jy@@ @@@@@@@@ @@@&@@#) @@@CjJN@@C@@@@)'pos_out̠CuzCvz@б@г+out_channelCzCz@@ @@@3CCCCCCCC@lW@A@@гBР%int64CzCz@@ @@@@@@@@@@@Cz~ @@C@@ @@2out_channel_length͠CC@б@г$+out_channelCC@@ @@@3CCCCCCCC@1F@A@@гC%int64CC@@ @@@ @@@@@ @@@C @@C@@ @@'seek_inΠCC@б@г~*in_channelCC@@ @@@ 3CCCCCCCC@1F@A@@б@гC2%int64CC@@ @@@ @@гC$unitCC@@ @@@ @@@@@!@@@'@@$* @@@D @@D$@@@@*&pos_inϠD D@б@г*in_channelD"D#@@ @@@3D$D#D#D$D$D$D$D$@CX@A@@гCr%int64D1 D2%@@ @@@@@@@@@@@D< @@DT@@ @@1in_channel_lengthРDG&.DH&?@б@г*in_channelDR&BDS&L@@ @@@3DTDSDSDTDTDTDTDT@1F@A@@гC%int64Da&PDb&U@@ @@@@@@@@@@@Dl&* @@D@@ @@@A @@@m@f?@8@@3DxDwDwDxDxDxDxDx@%:@AdDDFDV[@@BD c Operations on large files. This sub-module provides 64-bit variants of the channel functions that manipulate file positions and file sizes. By representing positions and sizes by 64-bit integers (type [int64]) instead of regular integers (type [int]), these alternate functions allow operating on files whose sizes are greater than [max_int]. D\\D@@@@@@@D11@x@DD0 {1 References} DD@@@@@@3DDDDDDDD@@zB@;@ @@x@qJ@@C21@11@@@1@1@.@AA+#refSDD@А!a@3DDDDDDDD@.;@@@A@A@G@B@@@DD@C) X The type of references (mutable indirection cells) containing a value of type ['a]. DDGb@@@@@@@@@E@@ADD@@BA@;$@A(contentsA@+T@DD@@E@@@A@@@@@@%"@@@#  EE@ A@Ш@А!a:E @@@@>@@@A@5C[E32@22@@@2@2@@v@?@#refԠE#dmE$dp@б@А!a@)T@$3E,E+E+E,E,E,E,E,@nA@AE2dsE3du@@гt#refE;d|E<d@А!aEBdyECd{@@@@@@& @@@!@@'@@,%makemutableAAC@@@ERddESd@C 6 Return a fresh reference containing the given value. E`Ea@@@@@@@Ey@@@CEu@@@@@@A!!ՠExEy@б@г#refEE@А!a@/T@*3EEEEEEEE@`qD@AEE@@@ @@@, @@А!a EE@@@ @@-@@'%field0AAC@@@EE@C [!r] returns the current contents of reference [r]. Equivalent to [fun r -> r.contents]. Unary operator, see {!Ocaml_operators} for more information. EE@@@@@@@E@@@DEʐ@@@@@@7":=֠EE@б@г#refEE@А!a@7T@03EEEEEEEE@VqD@AEE@@@ @@@2 @@б@А!aEE@@гE$unitEE@@ @@@3@@@&@@4!@@@@@5$" @@*%setfield0BAD]@@@@FF@D] [r := a] stores the value of [a] in reference [r]. Equivalent to [fun r v -> r.contents <- v]. Right-associative operator, see {!Ocaml_operators} for more information. FF@@@@@@@F6@@@DnF2@@@@@@J$incrנF5F6@б@гy#refF@FA@гF#intFJFK@@ @@@83FLFKFKFLFLFLFLFL@mI@A@@@ @@@: @@гF $unitF^F_@@ @@@;@@@@@<@@%%incrAAD@@@FmFn@D c Increment the integer contained in the given reference. Equivalent to [fun r -> r := succ !r]. F{F|@@@@@@@F@@@DF@@@@@@<$decrؠF%F)@б@гנ#refF0F3@гF|#intF,F/@@ @@@=3FFFFFFFF@_~H@A@@@ @@@? @@гFj$unitF7F;@@ @@@@@@@@@A@@%%decrAAE@@@FFE@E c Decrement the integer contained in the given reference. Equivalent to [fun r -> r := pred !r]. FFFF@@@@@@@F@@@E*F@@@@@@<FF1 {1 Result type} FF@@@@@@3FFFFFFFF@Nm7@AA+&resultTGG@А!a@D3G G G G G G G G @;@@B@@C@B@A@GG@BB@@@GG@El- @since 4.03 G,G-@@@@@@@@@GE@@AG0G1@@CА!b@E+G;G<@@N@;3 @B"Okڐ=U@F@@GJGK@@Gc@%ErrorېU@H@@GV8@@Gn@@@A@YY@@@@@@?<@@.@#Ga@@А!a XGh@@@@ @#GmGn@@А!b!eGuW@@@@!@@A@YEGWV@VV@@@V@V@@dc@GG " {1 Operations on format strings} G  G 0@@@@@@3GGGGGGGG@X@AGG C Format strings are character strings with special lexical conventions that defines the functionality of formatted input/output functions. Format strings are used to read data with formatted input functions from module {!Scanf} and to print data with formatted output functions from modules {!Printf} and {!Format}. Format strings are made of three kinds of entities: - {e conversions specifications}, introduced by the special character ['%'] followed by one or more characters specifying what kind of argument to read or print, - {e formatting indications}, introduced by the special character ['@'] followed by one or more characters specifying how to read or print the argument, - {e plain characters} that are regular characters with usual lexical conventions. Plain characters specify string literals to be read in the input or printed in the output. There is an additional lexical rule to escape the special characters ['%'] and ['@'] in format strings: if a special character follows a ['%'] character, it is treated as a plain character. In other words, ["%%"] is considered as a plain ['%'] and ["%@"] as a plain ['@']. For more information about conversion specifications and formatting indications available, read the documentation of modules {!Scanf}, {!Printf} and {!Format}. G22Gxz@@@@@@GG 1 Format strings have a general and highly polymorphic type [('a, 'b, 'c, 'd, 'e, 'f) format6]. The two simplified types, [format] and [format4] below are included for backward compatibility with earlier releases of OCaml. The meaning of format string type parameters is as follows: - ['a] is the type of the parameters of the format for formatted output functions ([printf]-style functions); ['a] is the type of the values read by the format for formatted input functions ([scanf]-style functions). - ['b] is the type of input source for formatted input functions and the type of output target for formatted output functions. For [printf]-style functions from module {!Printf}, ['b] is typically [out_channel]; for [printf]-style functions from module {!Format}, ['b] is typically {!type:Format.formatter}; for [scanf]-style functions from module {!Scanf}, ['b] is typically {!Scanf.Scanning.in_channel}. Type argument ['b] is also the type of the first argument given to user's defined printing functions for [%a] and [%t] conversions, and user's defined reading functions for [%r] conversion. - ['c] is the type of the result of the [%a] and [%t] printing functions, and also the type of the argument transmitted to the first argument of [kprintf]-style functions or to the [kscanf]-style functions. - ['d] is the type of parameters for the [scanf]-style functions. - ['e] is the type of the receiver function for the [scanf]-style functions. - ['f] is the final result type of a formatted input/output function invocation: for the [printf]-style functions, it is typically [unit]; for the [scanf]-style functions, it is typically the result type of the receiver function. G||G@@@@@@$A+'format6UGG@А!a@[3GGGGGGGG@8;@@U@@V@@W@@X@@Y@@Z@F@A*@@Ǡ@@Ƞ@@ɠ@@ʠ@@ˠ@@@@@@TGGGGGG@BBBBBB@@@HH@@@@H@@AH H @@А!b@\JHH@@(А!c@]UH H!@@3А!d@^`H+H,@@>А!e@_kH6H7@@IА!f@`vHAHB@@T@;~5+! @FA8CamlinternalFormatBasics'format6V@GV@?V@7V@/V@'V@@@@OOOO@@@@@@@@@@l@@@i@@Aг'(HyHz@+H}w@x@А!a0HH@@А!b4HH@@А!c8ǰHH@@А!d<ΰHH@@А!e@հHH@@А!fDܰHH@@@^߰H@@@@@A+'format4VH /H 6@А!a@3HHHHHHHH@.;@@֠@@נ@@ؠ@@@D@A%@@ @@ @@ @@ @@@ @ՠGGGG@BBBB@@@H H Y@@@@I@@AH H !@@А!b@;H #H %@@А!c@FI 'I )@@А!d@QI +I -@@$@;Y @DA`cW@ޠ+W@ߠ#W@W@@@@OO@@@@@@@@H@@@E@@Aг'format6I: RN@А!a"I@ :IA <@@А!b&IG >IH @@@А!c*IN BIO D@@А!c1IU FIV H@@А!c8I\ JI] L@@А!d:Ic NId P@@@LIf 9z@@|@@3IdIcIcIdIdIdIdId@@A}|@A+&formatWIr [mIs [s@А!a@ 63IyIxIxIyIyIyIyIy@l;@@ 3@@ 4@@ 5@C@A"@@ t@@ u@@ v@@@ w@ 2GGG@BBB@@@I [[I [@@@@I@@AI [aI [c@@А!b@ 73I [eI [g@@àА!c@ 8>I [iI [k@@@;F @C\AOX@ 9X@ :X@ ;@@@ @O@@@@@@@6@@@3@@Aг'format4I [<@А!afI [wI [y@@А!b mI [{I [}@@А!c$tI [I [@@А!c+{I [I [@@@8~I [vZ@@\@@3IIIIIIII@@A]\@0string_of_formatJ J @б@гQ'format6J J @А!a@ X@ 3JJJJJJJJ@a@AJ J  @@А!b@ X@ J+ J, @@А!c@ X@ J7 J8 @@А!d@ X@ &JC JD @@А!e@ X@ 2JO JP @@А!f@ X@ >J[ J\ @@@SI<1&@@@ JJg V@@гJ:&stringJo Jp @@ @@@ X@@@@@ [@@@Jz  @Hǐ ) Converts a format string into a string. JJ@@@@@@@J@@@HJ@@@@@@z0format_of_stringJ J@б@г預'format6J9J@@А!a@ X@ 3JJJJJJJJ@>@AJ!J#@@А!b@ X@ J%J'@@А!c@ X@ J)J+@@А!d@ X@ &J-J/@@А!e@ X@ 2J1J3@@А!f@ X@ >J5J7@@@SI<1&@@@ JJ V@@гG'format6KD_KDf@А!a^YKDGKDI@@А!bW`KDKKDM@@А!cRgKDOKDQ@@А!dMnK#DSK$DU@@А!eHuK*DWK+DY@@А!fC|K1D[K2D]@@@3zodYN@@@ K=DF6@@@K @@ B9@@)%identityAAI@@@KGKHDt@I  [format_of_string s] returns a format string read from the string literal [s]. Note: [format_of_string] can not convert a string argument that is not a literal. If you need this functionality, use the more general {!Scanf.format_from_string} function. KUuuKV@@@@@@@Kn@@@IKj@@@@@@"^^KmKn@б@г'format6KxKy@А!a@ X@ 3KKKKKKKK@D@AKK@@А!b@ X@ KK@@А!c@ X@ KK@@А!d@ X@ &KK@@А!e@ X@ 2KK@@А!f@ X@ >KK@@@SI<1&@@@ JKV@@б@г'format6KK@А!f"[KK@@А!bYbKK@@А!cTiKK@@А!eCpKK@@А!g@ X@ |LL@@А!h@ X@ L L @@@=U{d@@@ L@@@г`'format6L L!@А!aL'L(@@А!bL.L/@@А!cL5L6@@А!dL<L=@@А!gHLCLD@@А!hCưLJLK@@@3ѠĠYN@@@ ҰLV6@@@K @@ ְB9@@@@@ ٰ<@@@L_?@J  [f1 ^^ f2] catenates format strings [f1] and [f2]. The result is a format string that behaves as the concatenation of format strings [f1] and [f2]: in case of formatted output, it accepts arguments from [f1], then arguments from [f2]; in case of formatted input, it returns results from [f1], then results from [f2]. Right-associative operator, see {!Ocaml_operators} for more information. LlLm$™›@@@@@@@L@@O@JL@@@@@@LL9 {1 Program termination} L&L&»@@@@@@3LLLLLLLL@ %1@A$exitL(½L(½@б@гLu#intL(½L(½@@ @@@ @@А!a@ X@ #L(½L(½@@@ @@ (@@@L(½½@K  Terminate the process, returning the given status code to the operating system: usually 0 to indicate no errors, and a small positive integer to indicate failure. All open output channels are flushed with [flush_all]. The callbacks registered with {!Domain.at_exit} are called followed by those registered with {!Stdlib.at_exit}. An implicit [exit 0] is performed each time a program terminates normally. An implicit [exit 2] is performed if the program terminates early because of an uncaught exception. L)L1@@@@@@@L@@@KLؐ@@@@@@G'at_exitL3L3@б@б@гL$unitL3L3@@ @@@ 3LLLLLLLL@b]:@A@@гL$unitL3L3 @@ @@@ @@@@@ @@гL$unitM3M3@@ @@@ @@@@@ "M3 @@@M3 @K`  Register the given function to be called at program termination time. The functions registered with [at_exit] will be called when the program does any of the following: - executes {!Stdlib.exit} - terminates, either normally or because of an uncaught exception - executes the C function [caml_shutdown]. The functions are called in 'last in, first out' order: the function most recently added with [at_exit] is called first. 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K@@ A  @@A@@A`@@yAh*Is@@CA2=@@ A@@A@@ARq@@kAZ;e@@5A$/@@A@@Az@@ADc@@]AL-W@@'A!@@A@@Al@@At6U@@OA>I@@A@@A@@A^}@@wAf(Gq@@AA0;@@ A@@A@@APo@@iAX9c@@3A"-@@A@@Ax@@A^?on@nn@@@n@n@k@@@3________@Ao@A@ H************************************************************************`AQQ`AQ]@ H ` B^^` B^@ H OCaml `C`C@ H `D`DD@ H Xavier Leroy, projet Cristal, INRIA Rocquencourt `EEE`EE@ H `#F`$F@ H Copyright 1996 Institut National de Recherche en Informatique et `)G`*G+@ H en Automatique. `/H,,`0H,x@ H `5Iyy`6Iy@ H All rights reserved. This file is distributed under the terms of `;J`= )}. Left-associative operator, see {!Ocaml_operators} for more information. YW e* See {!Stdlib.( >= )}. Left-associative operator, see {!Ocaml_operators} for more information. Y e* See {!Stdlib.( >= )}. Left-associative operator, see {!Ocaml_operators} for more information. X +* Structural ordering functions. These functions coincide with the usual orderings over integers, characters, strings, byte sequences and floating-point numbers, and extend them to a total ordering over all types. The ordering is compatible with {!Repr.equal}. As in the case of {!Repr.equal}, mutable structures are compared by contents. Comparison between functional values raises [Invalid_argument]. Comparison between cyclic structures may not terminate. Left-associative operator, see {!Ocaml_operators} for more information. XU<* Alias of {!Repr.compare}. W8* Alias of {!Repr.min}. W8* Alias of {!Repr.max}. Wn l* Alias of {!Repr.phys_equal}. Left-associative operator, see {!Ocaml_operators} for more information. W o* Negation of {!Repr.phys_equal}. Left-associative operator, see {!Ocaml_operators} for more information. Và9* {1 Boolean operations} V8* The boolean negation. Vi * The boolean 'and'. Evaluation is sequential, left-to-right: in [e1 && e2], [e1] is evaluated first, and if it returns [false], [e2] is not evaluated at all. Right-associative operator, see {!Ocaml_operators} for more information. V * The boolean 'or'. Evaluation is sequential, left-to-right: in [e1 || e2], [e1] is evaluated first, and if it returns [true], [e2] is not evaluated at all. Right-associative operator, see {!Ocaml_operators} for more information. U0* {1 Debugging} U * [__LOC__] returns the location at which this expression appears in the file currently being parsed by the compiler, with the standard error format of OCaml: "File %S, line %d, characters %d-%d". @since 4.02 Ud f* [__FILE__] returns the name of the file currently being parsed by the compiler. @since 4.02 U+ * [__LINE__] returns the line number at which this expression appears in the file currently being parsed by the compiler. @since 4.02 T e* [__MODULE__] returns the module name of the file being parsed by the compiler. @since 4.02 T _* [__POS__] returns a tuple [(file,lnum,cnum,enum)], corresponding to the location at which this expression appears in the file currently being parsed by the compiler. [file] is the current filename, [lnum] the line number, [cnum] the character position in the line and [enum] the last character position in the line. @since 4.02 TD * [__FUNCTION__] returns the name of the current function or method, including any enclosing modules or classes. @since 4.12 T * [__LOC_OF__ expr] returns a pair [(loc, expr)] where [loc] is the location of [expr] in the file currently being parsed by the compiler, with the standard error format of OCaml: "File %S, line %d, characters %d-%d". @since 4.02 S * [__LINE_OF__ expr] returns a pair [(line, expr)], where [line] is the line number at which the expression [expr] appears in the file currently being parsed by the compiler. @since 4.02 SQ * [__POS_OF__ expr] returns a pair [(loc,expr)], where [loc] is a tuple [(file,lnum,cnum,enum)] corresponding to the location at which the expression [expr] appears in the file currently being parsed by the compiler. [file] is the current filename, [lnum] the line number, [cnum] the character position in the line and [enum] the last character position in the line. @since 4.02 R<* {1 Composition operators} R * Reverse-application operator: [x |> f |> g] is exactly equivalent to [g (f (x))]. Left-associative operator, see {!Ocaml_operators} for more information. @since 4.01 RI * Application operator: [g @@ f @@ x] is exactly equivalent to [g (f (x))]. Right-associative operator, see {!Ocaml_operators} for more information. @since 4.01 Q頠9* {1 Integer arithmetic} Q͠ * Integers are [Sys.int_size] bits wide. All operations are taken modulo 2{^[Sys.int_size]}. They do not fail on overflow. Q * Unary negation. You can also write [- e] instead of [~- e]. Unary operator, see {!Ocaml_operators} for more information. Q * Unary addition. You can also write [+ e] instead of [~+ e]. Unary operator, see {!Ocaml_operators} for more information. @since 3.12 Q57* [succ x] is [x + 1]. P頠7* [pred x] is [x - 1]. P `* Integer addition. Left-associative operator, see {!Ocaml_operators} for more information. P> e* Integer subtraction. Left-associative operator, , see {!Ocaml_operators} for more information. Oߠ f* Integer multiplication. Left-associative operator, see {!Ocaml_operators} for more information. O * Integer division. Integer division rounds the real quotient of its arguments towards zero. More precisely, if [x >= 0] and [y > 0], [x / y] is the greatest integer less than or equal to the real quotient of [x] by [y]. Moreover, [(- x) / y = x / (- y) = - (x / y)]. Left-associative operator, see {!Ocaml_operators} for more information. @raise Division_by_zero if the second argument is 0. O! * Integer remainder. If [y] is not zero, the result of [x mod y] satisfies the following properties: [x = (x / y) * y + x mod y] and [abs(x mod y) <= abs(y) - 1]. If [y = 0], [x mod y] raises [Division_by_zero]. Note that [x mod y] is negative only if [x < 0]. Left-associative operator, see {!Ocaml_operators} for more information. @raise Division_by_zero if [y] is zero. N  l* [abs x] is the absolute value of [x]. On [min_int] this is [min_int] itself and thus remains negative. N{ &* The greatest representable integer. NG &* The smallest representable integer. N9* {2 Bitwise operations} M c* Bitwise logical and. Left-associative operator, see {!Ocaml_operators} for more information. M b* Bitwise logical or. Left-associative operator, see {!Ocaml_operators} for more information. MH l* Bitwise logical exclusive or. Left-associative operator, see {!Ocaml_operators} for more information. L頠<* Bitwise logical negation. L * [n lsl m] shifts [n] to the left by [m] bits. The result is unspecified if [m < 0] or [m > Sys.int_size]. Right-associative operator, see {!Ocaml_operators} for more information. LD * [n lsr m] shifts [n] to the right by [m] bits. This is a logical shift: zeroes are inserted regardless of the sign of [n]. The result is unspecified if [m < 0] or [m > Sys.int_size]. Right-associative operator, see {!Ocaml_operators} for more information. K堠 * [n asr m] shifts [n] to the right by [m] bits. This is an arithmetic shift: the sign bit of [n] is replicated. The result is unspecified if [m < 0] or [m > Sys.int_size]. Right-associative operator, see {!Ocaml_operators} for more information. K * {1 Floating-point arithmetic} OCaml's floating-point numbers follow the IEEE 754 standard, using double precision (64 bits) numbers. Floating-point operations never raise an exception on overflow, underflow, division by zero, etc. Instead, special IEEE numbers are returned as appropriate, such as [infinity] for [1.0 /. 0.0], [neg_infinity] for [-1.0 /. 0.0], and [nan] ('not a number') for [0.0 /. 0.0]. These special numbers then propagate through floating-point computations as expected: for instance, [1.0 /. infinity] is [0.0], basic arithmetic operations ([+.], [-.], [*.], [/.]) with [nan] as an argument return [nan], ... Kj * Unary negation. You can also write [-. e] instead of [~-. e]. Unary operator, see {!Ocaml_operators} for more information. K, * Unary addition. You can also write [+. e] instead of [~+. e]. Unary operator, see {!Ocaml_operators} for more information. @since 3.12 Jࠠ g* Floating-point addition. Left-associative operator, see {!Ocaml_operators} for more information. J j* Floating-point subtraction. Left-associative operator, see {!Ocaml_operators} for more information. J" m* Floating-point multiplication. Left-associative operator, see {!Ocaml_operators} for more information. Ià g* Floating-point division. Left-associative operator, see {!Ocaml_operators} for more information. Id _* Exponentiation. Right-associative operator, see {!Ocaml_operators} for more information. H/* Square root. H/* Exponential. H5* Natural logarithm. G5* Base 10 logarithm. GC |* [expm1 x] computes [exp x -. 1.0], giving numerically-accurate results even if [x] is close to [0.0]. @since 3.12 Fؠ * [log1p x] computes [log(1.0 +. x)] (natural logarithm), giving numerically-accurate results even if [x] is close to [0.0]. @since 3.12 Fm #* Cosine. Argument is in radians. F !* Sine. Argument is in radians. E $* Tangent. Argument is in radians. E, ~* Arc cosine. The argument must fall within the range [[-1.0, 1.0]]. Result is in radians and is between [0.0] and [pi]. D * Arc sine. The argument must fall within the range [[-1.0, 1.0]]. Result is in radians and is between [-pi/2] and [pi/2]. DV K* Arc tangent. Result is in radians and is between [-pi/2] and [pi/2]. C렠 * [atan2 y x] returns the arc tangent of [y /. x]. The signs of [x] and [y] are used to determine the quadrant of the result. Result is in radians and is between [-pi] and [pi]. Cm :* [hypot x y] returns [sqrt(x *. x + y *. y)], that is, the length of the hypotenuse of a right-angled triangle with sides of length [x] and [y], or, equivalently, the distance of the point [(x,y)] to origin. If one of [x] or [y] is infinite, returns [infinity] even if the other is [nan]. @since 4.00 B .* Hyperbolic cosine. Argument is in radians. B ,* Hyperbolic sine. Argument is in radians. B /* Hyperbolic tangent. Argument is in radians. A * Hyperbolic arc cosine. The argument must fall within the range [[1.0, inf]]. Result is in radians and is between [0.0] and [inf]. @since 4.13 AC * Hyperbolic arc sine. The argument and result range over the entire real line. Result is in radians. @since 4.13 @ؠ * Hyperbolic arc tangent. The argument must fall within the range [[-1.0, 1.0]]. Result is in radians and ranges over the entire real line. @since 4.13 @m * Round above to an integer value. [ceil f] returns the least integer value greater than or equal to [f]. The result is returned as a float. @ * Round below to an integer value. [floor f] returns the greatest integer value less than or equal to [f]. The result is returned as a float. ? 3* [abs_float f] returns the absolute value of [f]. ?B * [copysign x y] returns a float whose absolute value is that of [x] and whose sign is that of [y]. If [x] is [nan], returns [nan]. If [y] is [nan], returns either [x] or [-. x], but it is not specified which. @since 4.00 >͠ * [mod_float a b] returns the remainder of [a] with respect to [b]. The returned value is [a -. n *. b], where [n] is the quotient [a /. b] rounded towards zero to an integer. >O * [frexp f] returns the pair of the significant and the exponent of [f]. When [f] is zero, the significant [x] and the exponent [n] of [f] are equal to zero. When [f] is non-zero, they are defined by [f = x *. 2 ** n] and [0.5 <= x < 1.0]. =ࠠ %* [ldexp x n] returns [x *. 2 ** n]. =R K* [modf f] returns the pair of the fractional and integral part of [f]. <砠 "* Same as {!Stdlib.float_of_int}. < (* Convert an integer to floating-point. ] and [>=] return [false] and [<>] returns [true] if one or both of their arguments is [nan]. [nan] is a quiet NaN since 5.1; it was a signaling NaN before. ; 5* The largest positive finite value of type [float]. :栠 K* The smallest positive, non-zero, non-denormalized value of type [float]. : t* The difference between [1.0] and the smallest exactly representable floating-point number greater than [1.0]. :~ #* Normal number, none of the below :Q 2* Number very close to 0.0, has reduced precision :=8* Number is 0.0 or -0.0 :) ** Number is positive or negative infinity : 1* Not a number: result of an undefined operation : i* The five classes of floating-point numbers, as determined by the {!Stdlib.classify_float} function. 9 n* Return the class of the given floating-point number: normal, subnormal, zero, infinite, or not a number. 9: U* {1 String operations} More string operations are provided in module {!String}. 9 * String concatenation. Right-associative operator, see {!Ocaml_operators} for more information. @raise Invalid_argument if the result is longer then than {!Sys.max_string_length} bytes. 8Π Y* {1 Character operations} More character operations are provided in module {!Char}. 8 )* Return the ASCII code of the argument. 8u }* Return the character with the given ASCII code. @raise Invalid_argument if the argument is outside the range 0--255. 8.6* {1 Unit operations} 8 "* Discard the value of its argument and return [()]. For instance, [ignore(f x)] discards the result of the side-effecting function [f]. It is equivalent to [f x; ()], except that the latter may generate a compiler warning; writing [ignore(f x)] instead avoids the warning. 7נ "* {1 String conversion functions} 7 * Return the string representation of a boolean. As the returned values may be shared, the user should not modify them directly. 7 v* Convert the given string to a boolean. Return [None] if the string is not ["true"] or ["false"]. @since 4.05 7- v* Same as {!Stdlib.bool_of_string_opt}, but raise [Invalid_argument "bool_of_string"] instead of returning [None]. 6砠 >* Return the string representation of an integer, in decimal. 6 * Convert the given string to an integer. The string is read in decimal (by default, or if the string begins with [0u]), in hexadecimal (if it begins with [0x] or [0X]), in octal (if it begins with [0o] or [0O]), or in binary (if it begins with [0b] or [0B]). The [0u] prefix reads the input as an unsigned integer in the range [[0, 2*max_int+1]]. If the input exceeds {!max_int} it is converted to the signed integer [min_int + input - max_int - 1]. The [_] (underscore) character can appear anywhere in the string and is ignored. Return [None] if the given string is not a valid representation of an integer, or if the integer represented exceeds the range of integers representable in type [int]. @since 4.05 6L k* Same as {!Stdlib.int_of_string_opt}, but raise [Failure "int_of_string"] instead of returning [None]. 6 * Return a string representation of a floating-point number. This conversion can involve a loss of precision. For greater control over the manner in which the number is printed, see {!Printf}. 5 b* Convert the given string to a float. The string is read in decimal (by default) or in hexadecimal (marked by [0x] or [0X]). The format of decimal floating-point numbers is [ [-] dd.ddd (e|E) [+|-] dd ], where [d] stands for a decimal digit. The format of hexadecimal floating-point numbers is [ [-] 0(x|X) hh.hhh (p|P) [+|-] dd ], where [h] stands for an hexadecimal digit and [d] for a decimal digit. In both cases, at least one of the integer and fractional parts must be given; the exponent part is optional. The [_] (underscore) character can appear anywhere in the string and is ignored. Depending on the execution platforms, other representations of floating-point numbers can be accepted, but should not be relied upon. Return [None] if the given string is not a valid representation of a float. @since 4.05 5e o* Same as {!Stdlib.float_of_string_opt}, but raise [Failure "float_of_string"] instead of returning [None]. 56* {1 Pair operations} 4 (* Return the first component of a pair. 4 )* Return the second component of a pair. 4V O* {1 List operations} More list operations are provided in module {!List}. 4: * [l0 @ l1] appends [l1] to [l0]. Same function as {!List.append}. Right-associative operator, see {!Ocaml_operators} for more information. @since 5.1 this function is tail-recursive. 3Ҡ z* {1 Input/output} Note: all input/output functions can raise [Sys_error] when the system calls they invoke fail. 3=* The type of input channel. 3>* The type of output channel. 3u &* The standard input for the process. 3? '* The standard output for the process. 3 -* The standard error output for the process. 2נ ** {2 Output functions on standard output} 2 (* Print a character on standard output. 2 %* Print a string on standard output. 2= ;* Print a byte sequence on standard output. @since 4.02 1 4* Print an integer, in decimal, on standard output. 1 * Print a floating-point number, in decimal, on standard output. The conversion of the number to a string uses {!string_of_float} and can involve a loss of precision. 1k d* Print a string, followed by a newline character, on standard output and flush standard output. 1% * Print a newline character on standard output, and flush standard output. This can be used to simulate line buffering of standard output. 0ߠ )* {2 Output functions on standard error} 0Ġ '* Print a character on standard error. 0 $* Print a string on standard error. 0E :* Print a byte sequence on standard error. @since 4.02 / 3* Print an integer, in decimal, on standard error. / * Print a floating-point number, in decimal, on standard error. The conversion of the number to a string uses {!string_of_float} and can involve a loss of precision. /s a* Print a string, followed by a newline character on standard error and flush standard error. /- L* Print a newline character on standard error, and flush standard error. .砠 (* {2 Input functions on standard input} .̠  * Flush standard output, then read characters from standard input until a newline character is encountered. Return the string of all characters read, without the newline character at the end. @raise End_of_file if the end of the file is reached at the beginning of line. . * Flush standard output, then read one line from standard input and convert it to an integer. Return [None] if the line read is not a valid representation of an integer. @since 4.05 .> f* Same as {!Stdlib.read_int_opt}, but raise [Failure "int_of_string"] instead of returning [None]. - * Flush standard output, then read one line from standard input and convert it to a floating-point number. Return [None] if the line read is not a valid representation of a floating-point number. @since 4.05 - j* Same as {!Stdlib.read_float_opt}, but raise [Failure "float_of_string"] instead of returning [None]. -]?* {2 General output functions} -B4* open for reading. - 4* open for writing. - 3* open for appending: always write at end of file. , (* create the file if it does not exist. ,䠠 '* empty the file if it already exists. ,Р 2* fail if Open_creat and the file already exists. , '* open in binary mode (no conversion). , /* open in text mode (may perform conversions). ,=* open in non-blocking mode. , H* Opening modes for {!Stdlib.open_out_gen} and {!Stdlib.open_in_gen}. ,r * Open the named file for writing, and return a new output channel on that file, positioned at the beginning of the file. The file is truncated to zero length if it already exists. It is created if it does not already exists. + * Same as {!Stdlib.open_out}, but the file is opened in binary mode, so that no translation takes place during writes. On operating systems that do not distinguish between text mode and binary mode, this function behaves like {!Stdlib.open_out}. +M M* [open_out_gen mode perm filename] opens the named file for writing, as described above. The extra argument [mode] specifies the opening mode. The extra argument [perm] specifies the file permissions, in case the file must be created. {!Stdlib.open_out} and {!Stdlib.open_out_bin} are special cases of this function. *Ԡ * Flush the buffer associated with the given output channel, performing all pending writes on that channel. Interactive programs must be careful about flushing standard output and standard error at the right time. * 1* Flush all open output channels; ignore errors. *H 3* Write the character on the given output channel. ) 0* Write the string on the given output channel. ) F* Write the byte sequence on the given output channel. @since 4.02 )@ * [output oc buf pos len] writes [len] characters from byte sequence [buf], starting at offset [pos], to the given output channel [oc]. @raise Invalid_argument if [pos] and [len] do not designate a valid range of [buf]. (Ġ _* Same as [output] but take a string as argument instead of a byte sequence. @since 4.02 (H * Write one 8-bit integer (as the single character with that code) on the given output channel. The given integer is taken modulo 256. ' 6* Write one integer in binary format (4 bytes, big-endian) on the given output channel. The given integer is taken modulo 2{^32}. The only reliable way to read it back is through the {!Stdlib.input_binary_int} function. The format is compatible across all machines for a given version of OCaml. ' * Write the representation of a structured value of any type to a channel. Circularities and sharing inside the value are detected and preserved. The object can be read back, by the function {!Stdlib.input_value}. See the description of module {!Marshal} for more information. {!Stdlib.output_value} is equivalent to {!Marshal.to_channel} with an empty list of flags. 'B * [seek_out chan pos] sets the current writing position to [pos] for channel [chan]. This works only for regular files. On files of other kinds (such as terminals, pipes and sockets), the behavior is unspecified. &ꠠ * Return the current writing position for the given channel. Does not work on channels opened with the [Open_append] flag (returns unspecified results). For files opened in text mode under Windows, the returned position is approximate (owing to end-of-line conversion); in particular, saving the current position with [pos_out], then going back to this position using [seek_out] will not work. For this programming idiom to work reliably and portably, the file must be opened in binary mode. & * Return the size (number of characters) of the regular file on which the given channel is opened. If the channel is opened on a file that is not a regular file, the result is meaningless. &^ ~* Close the given channel, flushing all buffered write operations. Output functions raise a [Sys_error] exception when they are applied to a closed output channel, except [close_out] and [flush], which do nothing when applied to an already closed channel. Note that [close_out] may raise [Sys_error] if the operating system signals an error when flushing or closing. & .* Same as [close_out], but ignore all errors. %Ҡ * [set_binary_mode_out oc true] sets the channel [oc] to binary mode: no translations take place during output. [set_binary_mode_out oc false] sets the channel [oc] to text mode: depending on the operating system, some translations may take place during output. For instance, under Windows, end-of-lines will be translated from [\n] to [\r\n]. This function has no effect under operating systems that do not distinguish between text mode and binary mode. %z>* {2 General input functions} %_ |* Open the named file for reading, and return a new input channel on that file, positioned at the beginning of the file. %& * Same as {!Stdlib.open_in}, but the file is opened in binary mode, so that no translation takes place during reads. On operating systems that do not distinguish between text mode and binary mode, this function behaves like {!Stdlib.open_in}. $ࠠ  * [open_in_gen mode perm filename] opens the named file for reading, as described above. The extra arguments [mode] and [perm] specify the opening mode and file permissions. {!Stdlib.open_in} and {!Stdlib.open_in_bin} are special cases of this function. $g r* Read one character from the given input channel. @raise End_of_file if there are no more characters to read. $!  * Read characters from the given input channel, until a newline character is encountered. Return the string of all characters read, without the newline character at the end. @raise End_of_file if the end of the file is reached at the beginning of line. #۠ @* [input ic buf pos len] reads up to [len] characters from the given channel [ic], storing them in byte sequence [buf], starting at character number [pos]. It returns the actual number of characters read, between 0 and [len] (inclusive). A return value of 0 means that the end of file was reached. A return value between 0 and [len] exclusive means that not all requested [len] characters were read, either because no more characters were available at that time, or because the implementation found it convenient to do a partial read; [input] must be called again to read the remaining characters, if desired. (See also {!Stdlib.really_input} for reading exactly [len] characters.) Exception [Invalid_argument "input"] is raised if [pos] and [len] do not designate a valid range of [buf]. #_ O* [really_input ic buf pos len] reads [len] characters from channel [ic], storing them in byte sequence [buf], starting at character number [pos]. @raise End_of_file if the end of file is reached before [len] characters have been read. @raise Invalid_argument if [pos] and [len] do not designate a valid range of [buf]. "㠠 * [really_input_string ic len] reads [len] characters from channel [ic] and returns them in a new string. @raise End_of_file if the end of file is reached before [len] characters have been read. @since 4.02 " * Same as {!Stdlib.input_char}, but return the 8-bit integer representing the character. @raise End_of_file if the end of file was reached. "E * Read an integer encoded in binary format (4 bytes, big-endian) from the given input channel. See {!Stdlib.output_binary_int}. @raise End_of_file if the end of file was reached while reading the integer. ! 0* Read the representation of a structured value, as produced by {!Stdlib.output_value}, and return the corresponding value. This function is identical to {!Marshal.from_channel}; see the description of module {!Marshal} for more information, in particular concerning the lack of type safety. ! * [seek_in chan pos] sets the current reading position to [pos] for channel [chan]. This works only for regular files. On files of other kinds, the behavior is unspecified. !c * Return the current reading position for the given channel. For files opened in text mode under Windows, the returned position is approximate (owing to end-of-line conversion); in particular, saving the current position with [pos_in], then going back to this position using [seek_in] will not work. For this programming idiom to work reliably and portably, the file must be opened in binary mode. ! c* Return the size (number of characters) of the regular file on which the given channel is opened. If the channel is opened on a file that is not a regular file, the result is meaningless. The returned size does not take into account the end-of-line translations that can be performed when reading from a channel opened in text mode.  נ * Close the given channel. Input functions raise a [Sys_error] exception when they are applied to a closed input channel, except [close_in], which does nothing when applied to an already closed channel.  -* Same as [close_in], but ignore all errors.  K * [set_binary_mode_in ic true] sets the channel [ic] to binary mode: no translations take place during input. [set_binary_mode_out ic false] sets the channel [ic] to text mode: depending on the operating system, some translations may take place during input. For instance, under Windows, end-of-lines will be translated from [\r\n] to [\n]. This function has no effect under operating systems that do not distinguish between text mode and binary mode.  * {2 Operations on large files} ؠ d* Operations on large files. This sub-module provides 64-bit variants of the channel functions that manipulate file positions and file sizes. By representing positions and sizes by 64-bit integers (type [int64]) instead of regular integers (type [int]), these alternate functions allow operating on files whose sizes are greater than [max_int]. e1* {1 References} T Y* The type of references (mutable indirection cells) containing a value of type ['a].  7* Return a fresh reference containing the given value.  * [!r] returns the current contents of reference [r]. Equivalent to [fun r -> r.contents]. Unary operator, see {!Ocaml_operators} for more information. J * [r := a] stores the value of [a] in reference [r]. Equivalent to [fun r v -> r.contents <- v]. Right-associative operator, see {!Ocaml_operators} for more information. 堠 d* Increment the integer contained in the given reference. Equivalent to [fun r -> r := succ !r].  d* Decrement the integer contained in the given reference. Equivalent to [fun r -> r := pred !r]. /2* {1 Result type} .* @since 4.03 ⠠ #* {1 Operations on format strings}  D* Format strings are character strings with special lexical conventions that defines the functionality of formatted input/output functions. Format strings are used to read data with formatted input functions from module {!Scanf} and to print data with formatted output functions from modules {!Printf} and {!Format}. Format strings are made of three kinds of entities: - {e conversions specifications}, introduced by the special character ['%'] followed by one or more characters specifying what kind of argument to read or print, - {e formatting indications}, introduced by the special character ['@'] followed by one or more characters specifying how to read or print the argument, - {e plain characters} that are regular characters with usual lexical conventions. Plain characters specify string literals to be read in the input or printed in the output. There is an additional lexical rule to escape the special characters ['%'] and ['@'] in format strings: if a special character follows a ['%'] character, it is treated as a plain character. In other words, ["%%"] is considered as a plain ['%'] and ["%@"] as a plain ['@']. For more information about conversion specifications and formatting indications available, read the documentation of modules {!Scanf}, {!Printf} and {!Format}. p 2* Format strings have a general and highly polymorphic type [('a, 'b, 'c, 'd, 'e, 'f) format6]. The two simplified types, [format] and [format4] below are included for backward compatibility with earlier releases of OCaml. The meaning of format string type parameters is as follows: - ['a] is the type of the parameters of the format for formatted output functions ([printf]-style functions); ['a] is the type of the values read by the format for formatted input functions ([scanf]-style functions). - ['b] is the type of input source for formatted input functions and the type of output target for formatted output functions. For [printf]-style functions from module {!Printf}, ['b] is typically [out_channel]; for [printf]-style functions from module {!Format}, ['b] is typically {!type:Format.formatter}; for [scanf]-style functions from module {!Scanf}, ['b] is typically {!Scanf.Scanning.in_channel}. Type argument ['b] is also the type of the first argument given to user's defined printing functions for [%a] and [%t] conversions, and user's defined reading functions for [%r] conversion. - ['c] is the type of the result of the [%a] and [%t] printing functions, and also the type of the argument transmitted to the first argument of [kprintf]-style functions or to the [kscanf]-style functions. - ['d] is the type of parameters for the [scanf]-style functions. - ['e] is the type of the receiver function for the [scanf]-style functions. - ['f] is the final result type of a formatted input/output function invocation: for the [printf]-style functions, it is typically [unit]; for the [scanf]-style functions, it is typically the result type of the receiver function. b ** Converts a format string into a string.  * [format_of_string s] returns a format string read from the string literal [s]. Note: [format_of_string] can not convert a string argument that is not a literal. If you need this functionality, use the more general {!Scanf.format_from_string} function. Ƞ * [f1 ^^ f2] catenates format strings [f1] and [f2]. The result is a format string that behaves as the concatenation of format strings [f1] and [f2]: in case of formatted output, it accepts arguments from [f1], then arguments from [f2]; in case of formatted input, it returns results from [f1], then results from [f2]. Right-associative operator, see {!Ocaml_operators} for more information. :* {1 Program termination}  * Terminate the process, returning the given status code to the operating system: usually 0 to indicate no errors, and a small positive integer to indicate failure. All open output channels are flushed with [flush_all]. The callbacks registered with {!Domain.at_exit} are called followed by those registered with {!Stdlib.at_exit}. An implicit [exit 0] is performed each time a program terminates normally. An implicit [exit 2] is performed if the program terminates early because of an uncaught exception. b * Register the given function to be called at program termination time. The functions registered with [at_exit] will be called when the program does any of the following: - executes {!Stdlib.exit} - terminates, either normally or because of an uncaught exception - executes the C function [caml_shutdown]. The functions are called in 'last in, first out' order: the function most recently added with [at_exit] is called first.  #*/* = The following is for system use only. Do not call directly. c/@c0@*@#*/*ࠠ (* {1:modules Standard library modules } Р8* @canonical Stdlib.Arg :* @canonical Stdlib.Array u * @canonical Stdlib.ArrayLabels ?;* @canonical Stdlib.Atomic  =* @canonical Stdlib.Bigarray Ӡ9* @canonical Stdlib.Bool ;* @canonical Stdlib.Buffer g:* @canonical Stdlib.Bytes 1 * @canonical Stdlib.BytesLabels =* @canonical Stdlib.Callback Š9* @canonical Stdlib.Char <* @canonical Stdlib.Complex Y>* @canonical Stdlib.Condition #;* @canonical Stdlib.Digest ;* @canonical Stdlib.Domain =* @canonical Stdlib.Dynarray !;* @canonical Stdlib.Pqueue 렠;* @canonical Stdlib.Effect ;* @canonical Stdlib.Either >* @canonical Stdlib.Ephemeron 頠=* @canonical Stdlib.Filename :* @canonical Stdlib.Float };* @canonical Stdlib.Format G8* @canonical Stdlib.Fun 7* @canonical Stdlib.Gc ۠<* @canonical Stdlib.Hashtbl ;* @canonical Stdlib.Iarray o?* @canonical Stdlib.In_channel 98* @canonical Stdlib.Int :* @canonical Stdlib.Int32  ͠:* @canonical Stdlib.Int64  9* @canonical Stdlib.Lazy  a;* @canonical Stdlib.Lexing  +9* @canonical Stdlib.List  ?* @canonical Stdlib.ListLabels  8* @canonical Stdlib.Map  <* @canonical Stdlib.Marshal  S?* @canonical Stdlib.MoreLabels  :* @canonical Stdlib.Mutex  砠>* @canonical Stdlib.Nativeint  8* @canonical Stdlib.Obj  {7* @canonical Stdlib.Oo  E;* @canonical Stdlib.Option   * @canonical Stdlib.Out_channel  ٠9* @canonical Stdlib.Pair  <* @canonical Stdlib.Parsing  m=* @canonical Stdlib.Printexc  7;* @canonical Stdlib.Printf  :* @canonical Stdlib.Queue  ˠ;* @canonical Stdlib.Random  ;* @canonical Stdlib.Result  _9* @canonical Stdlib.Repr  ):* @canonical Stdlib.Scanf >* @canonical Stdlib.Semaphore 8* @canonical Stdlib.Seq 8* @canonical Stdlib.Set Q:* @canonical Stdlib.Stack >* @canonical Stdlib.StdLabels 堠;* @canonical Stdlib.String  !* @canonical Stdlib.StringLabels y8* @canonical Stdlib.Sys C9* @canonical Stdlib.Type  :* @canonical Stdlib.Uchar נ9* @canonical Stdlib.Unit 9* @canonical Stdlib.Weak k@O)../ocamlc0-strict-sequence(-absname"-w5+a-4-9-41-42-44-45-48"-g+-warn-error"+A*-bin-annot)-nostdlib*-principal--nopervasives.-no-alias-deps"-w#-49#-pp #gawk -f ./expand_module_aliases.awk"-c*stdlib.mli D/builds/workspace/precheck/flambda/false/label/ocaml-linux-32/stdlib @@0mkkV,9od43dddddddd@d@@Ȑ0%FU(Q/Tud20Lku]8_٠@|@E@@@@i@2@@@@V@@@@8@@1@@@n@7@@@@[@$@@@@H@@ @ @ l@ 5@ @ @ @ Y@ "@ @ @ }@ F@@ @ @ @ l@ @ 7@ @ @ Y@ "@@@}@F@@@@j@3@@0Lku]8_A%@ " ,@FG@ ` j.œ.%.ޓ.8_[_u@& &D@::b\b@@OOe@  $r$%N%242n@YY@lZưAAEpE@@@Ò,ϐ- Zݐ[&@@--@44۰QQT@5Ȑ5@@@@`[`u@=^<@3А4 [F[@@@@@@@R\6>>G@@ g q@@6L6e@  @@r/.Ѱ0:066CD;@@=e=>ؐ?@@[eRnR@!f!@ԖްPP@/O.@JKSbAb[@@@̐AMRR8@  @.#.]9#9bXLXx@@@_i @KKհOOX@TTR@@)c)HHmXYYY>@@\ڐ]#@ [\*@=>#FGGH@\@;;@1%1n@@ɖӰEzE@ k u;<"@**NN@a a3@  *+x+:;'@!"%Q Qr@@ F PTTaea@gq/Q0:@##@cc@հ"?"I++==d@@^ې_"@@@bѐc @s/x.@@22@/ؓ/&@,ِ-%<|<@ȖҰ?@8B@@  @??@@@U̐V VV@@@GQ9:6@<(V(@@  WqW@=ٓ=@@}ʰ-Z-@ ʖ ԰##>$̐%@@~?4W46א6@:e:@@5̐6@PwP@@%͐&=@&@@OlO@@ w @U\44MKNK@=:=@)y)@@CD5@@^^@@XX])]r@  #@@$$@5^5JKIWAW@22@STN@55YA6A_`#@UݐV@#ސ$DpD@@0/@)*$@^V^@ZZ@NO4@Z^Z@E\E@@ D N  @--TST@@@7А878\889@!$!NJNJ@XX@@C)~)@@@##kMʐN2@'(.@@@@cmbb@ 0 :Q[@@LMO@ߓ@@@@@II@@ JܐK1@??ʰ^=^_J_@@;6;pSsSZbZ@hr(_(@@#$%99@A9@ɖ@0ؓ0DDG@%%@""@!W!SMM@MW--O4d4GtGɰ]k]@lv@))@+[+@  BC@RSL@@#-@@@@@ ( 2@@"h"`ǔ`@ܖ6ې799@@oy11@@:G:@",""F+$+ncsc@@@3)3c@A4@@JdJ@QR @0:10Y@?7>Ȱ??@@@[\?@@  /l/@@@@CDR@''AA@Ű@@@ !AFF@@  !@231@)@@@2\27y7@@@@@%F%@ & 0@@>?@o@@NOBb!b;@\}\@ i sUPU@@@""İVzV@)@)xaÔa@44հ<%