Index of values


( * ) [Int_intf.S]
( * ) [Float_intf.S]
(!) [Ref]
(!=) [Common]
(%) [Int.Infix]
mod and div operators that have the right behavior on negative numbers, that is, x % y always returns a value between 0 and y-1.
(%:) [Command.Spec]
(name %: typ) specifies a required anonymous argument of type typ.
(&) [Common]
(+) [Span]
Basic operations on spans
(+) [Int_intf.S]
(+) [Float_intf.S]
(+) [Flags_intf.S]
(+) [Commutative_group.S]
(+) [Byte_units.Infix]
( / ) t mul scales t by 1/mul
(+) [Bucket.Contents]
(++) [Command.Spec]
command-line spec composition
(+<) [Command.Spec]
add a leftmost parameter onto the type of main
(+>) [Command.Spec]
add a rightmost parameter onto the type of main
(-) [Span]
(-) [Int_intf.S]
(-) [Float_intf.S]
(-) [Flags_intf.S]
(-) [Commutative_group.S]
(-) [Byte_units.Infix]
(-) [Bucket.Contents]
(/%) [Int.Infix]
(/) [Span]
(/) [Int_intf.S]
(/) [Float_intf.S]
(/) [Byte_units.Infix]
(//) [Span]
(//) [Int.Infix]
float division of integers
(//) [Byte_units.Infix]
( // ) t1 t2 returns the ratio of t1 to t2
(:=) [Ref]
(<) [Polymorphic_compare]
(<) [No_polymorphic_compare]
(<) [Polymorphic_compare_intf.Infix]
(<) [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
(<.) [Robustly_comparable.S]
(</>) [String.Infix]
(<=) [Polymorphic_compare]
(<=) [No_polymorphic_compare]
(<=) [Polymorphic_compare_intf.Infix]
(<=) [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
(<=.) [Robustly_comparable.S]
(<>) [Polymorphic_compare]
(<>) [No_polymorphic_compare]
(<>) [Polymorphic_compare_intf.Infix]
(<>) [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
(<>.) [Robustly_comparable.S]
(<|>) [Array.Infix]
(=) [Polymorphic_compare]
(=) [No_polymorphic_compare]
(=) [Polymorphic_compare_intf.Infix]
(=) [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
(=.) [Robustly_comparable.S]
(==) [Common]
(==>) [Common]
(>) [Polymorphic_compare]
(>) [No_polymorphic_compare]
(>) [Polymorphic_compare_intf.Infix]
(>) [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
(>.) [Robustly_comparable.S]
(>=) [Polymorphic_compare]
(>=) [No_polymorphic_compare]
(>=) [Polymorphic_compare_intf.Infix]
(>=) [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
(>=.) [Robustly_comparable.S]
(>>=) [Monad.Infix2]
(>>=) [Monad.Infix]
t >>= f returns a computation that sequences the computations represented by two monad elements.
(>>|) [Monad.Infix2]
(>>|) [Monad.Infix]
t >>| f is t >>= (fun a -> return (f a)).
(@) [List.Infix]
(^/) [Common]
same as Filename.concat
(|!) [Fn]
A 'pipe' operator.
(|!) [Common]
Functions from fn.ml
(|>) [Fn]
A pipe operator, equivalent to |!, but this notation is more broadly accepted
(|>) [Common]
__env_of_sexp__ [Unix]
__error_of_sexp__ [Unix.Exit_or_signal_or_stop]
__error_of_sexp__ [Unix.Exit_or_signal]
__error_of_sexp__ [Unix.Exit]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Unique_id_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Time_internal]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Std_internal]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Substring_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Stringable]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Std]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Stable_unit_test_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Stable_internal]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Stable]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Source_code_position0]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Sexpable]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Robustly_comparable]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Polymorphic_compare_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Piecewise_linear_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Nothing0]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Never_returns]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Mutex0]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Monad]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Make_substring]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Invariant]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Int_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Interval_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Interfaces]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Intable]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Hash_set_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Hash_queue]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Hash_heap]
__pa_ounit_275876e34cf609db118f3d84b799a790 [T]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Hashable]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Float_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Floatable]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Flags_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Equal]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Core_set_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Core_map_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Core_hashtbl_intf]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Field]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Bin_prot]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Container]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Constrained_float]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Comparable]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Commutative_group]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Caml]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Bucket]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Binable0]
__pa_ounit_275876e34cf609db118f3d84b799a790 [Array_permute]
__sys_behavior_of_sexp__ [Signal]
__t_of_sexp__ [Source_code_position0]
__t_of_sexp__ [Nothing0]
__t_of_sexp__ [Unix.Scheduler.Policy]
__t_of_sexp__ [Unix.Protocol_family]
__t_of_sexp__ [Byte_units.Measure]
__wait_on_of_sexp__ [Unix]
_squelch_unused_module_warning_ [Std]
_squelch_unused_module_warning_ [No_polymorphic_compare]
_squelch_unused_module_warning_ [Comparable.S_common.Replace_polymorphic_compare]
_squelch_unused_module_warning_ [Comparable.Make_common.Replace_polymorphic_compare]
_squelch_unused_module_warning_ [Comparable.Poly.Replace_polymorphic_compare]

A
abbreviation [Zone]
abbreviation zone t returns t abbreviation name such as EDT, EST, JST of given zone at the time t.
abort [Unix]
abrt [Signal]
Dump_core Abnormal termination
abs [Span]
absolute value
abs [Int_intf.S]
abs [Float_intf.S]
abs_diff [Time_internal.T]
abs_diff [Time]
abs_diff t1 t2 returns the absolute span of time t1 minus time t2.
abs_float [Common]
accept [Unix]
Accept connections on the given socket.
access [Unix]
Check that the process has the given permissions over the named file.
access_exn [Unix]
ad_hoc [Command.Deprecated.Spec]
add [Time_internal.T]
add [Time]
add t s adds the span s to time t and returns the resulting time.
add [Univ_map.Multi]
add [Univ_map.With_fold]
add [Univ_map]
add [Timer]
add timer handler ?randomize ?interval span
add [Ofday]
add t s shifts the time of day t by the span s.
add [Int_set]
add t i add i to the set
add [Hash_set_intf.Accessors]
add [Float_intf.S]
add [Unix.Resource_usage]
add ru1 ru2 adds two rusage structures (e.g.
add [Core_set_intf.Accessors]
add [Core_map_intf.Accessors]
returns a new map with the specified new binding; if the key was already bound, its previous binding disappears.
add [List.Assoc]
add [Core_hashtbl_intf.Accessors]
add [Bounded_int_table]
add [Bag]
add t v adds v to the bag t, returning an element that can later be removed from the bag.
add [Avltree]
adds the specified key and data to the tree destructively (previous t's are no longer valid) using the specified comparison function.
add_abs [Timer]
add_abs timer handler ?randomize ?interval time same as Timer.add, but takes an absolute time time for scheduling the event rather than a span.
add_buffer [Bigbuffer]
add_buffer b1 b2 appends the current contents of buffer b2 at the end of buffer b1.
add_business_days [Date]
add_business_days t ~is_holiday n returns a business day even when n=0.
add_channel [Bigbuffer]
add_channel b ic n reads exactly n character from the input channel ic and stores them at the end of buffer b.
add_char [Bigbuffer]
add_char b c appends the character c at the end of the buffer b.
add_days [Date]
add_exn [Univ_map]
add_exn [Core_hashtbl_intf.Accessors]
add_exn [Bounded_int_table]
add_finalizer [Gc]
add_finalizer b f ensures that f runs after b becomes unreachable.
add_finalizer_exn [Gc]
add_months [Date]
add_months t n returns date with max days for the month if the date would be invalid.
add_multi [Core_map_intf.Accessors]
if key is not present then add a singleton list, otherwise, cons data on the head of the existing list.
add_multi [Core_hashtbl_intf.Accessors]
add_multi t ~key ~data if key is present in the table then cons data on the list, otherwise add key with a single element list.
add_range [Int_set]
add_range t i j add all the numbers between i and j (inclusive) to the set.
add_string [Bigbuffer]
add_string b s appends the string s at the end of the buffer b.
add_substitute [Bigbuffer]
add_substitute b f s appends the string pattern s at the end of the buffer b with substitution.
add_substring [Bigbuffer]
add_substring b s ofs len takes len characters from offset ofs in string s and appends them at the end of the buffer b.
add_weekdays [Date]
add_weekdays t 0 returns the next weekday if t is a weekend and t otherwise.
addr_info_of_sexp [Unix]
Address information returned by Unix.getaddrinfo.
alarm [Unix]
Schedule a SIGALRM signal after the given number of seconds.
align [Arg]
Align the documentation strings by inserting spaces at the first space, according to the length of the keyword.
all [Pretty_printer]
all () returns all pretty printers that have been registered.
all [Month]
all [Monad.S2]
all [Monad.Make2]
all [Monad.Make]
all [Monad.S]
all_ignore [Monad.S2]
all_ignore [Monad.Make2]
all_ignore [Monad.Make]
all_ignore [Monad.S]
allocated_bytes [Gc]
Return the total number of bytes allocated since the program was started.
allocation_policy [Gc.Control.Fields]
allocation_policy [Gc.Control]
allow_intersecting [Flags_intf.Make_arg]
allow_intersecting says whether to allow intersecting known flags.
alrm [Signal]
Terminate Timeout
always [Quickcheck]
generator that always returns given value
am_recording [Backtrace.Exn]
and_ [Blang]
anon [Command.Spec]
anon spec specifies a command that, among other things, takes the anonymous arguments specified by spec.
append [Unix.Open_flags]
append [List]
E.g.
append [Array]
Array.append v1 v2 returns a fresh array containing the concatenation of the arrays v1 and v2.
apply [Result]
apply [Option]
apply x f run optional function on argument and return an option
apply_n_times [Fn]
apply_n_times ~n f x is the n-fold application of f to x.
are_disjoint [Interval_intf.Gen]
Returns true iff a given set of intervals are disjoint
are_disjoint [Flags_intf.S]
are_disjoint_as_open_intervals [Interval_intf.Gen]
Returns true iff a given set of intervals would be disjoint if considered as open intervals.
args [Command.Spec]
the arguments passed to the command
argv [Sys]
The command line arguments given to the process.
ascending [Polymorphic_compare]
ascending is identical to compare.
ascending [Comparable.S_common]
ascending is identical to compare.
ascending [Comparable.Make_common]
ascending [Comparable.Poly]

B
back_index [Dequeue]
backtrace [Exn]
Printexc.get_backtrace
backtrace_status [Printexc]
base [Substring_intf.S]
base [Make_substring.F]
base [Blang]
basename [Filename]
Respects the posix semantic.
basic [Command]
basic ~summary ?readme spec main is a basic command that executes a function main which is passed parameters parsed from the command line according to spec.
between [Comparable.S_common]
between [Comparable.Make_common]
between [Comparable.Poly]
big_contents [Bigbuffer]
Return a copy of the current contents of the buffer as a bigstring.
bigstring_bigstring [Make_substring.Blit]
bigstring_kind [Unix.IOVec]
bigstring_string [Make_substring.Blit]
bin_decimal [Common]
bin_immutable [Common]
bin_no_raise [Sexp]
bin_outer [Float_intf.S]
bin_read_decimal [Common]
bin_read_decimal_ [Common]
bin_read_decimal__ [Common]
bin_read_immutable [Common]
bin_read_immutable_ [Common]
bin_read_immutable__ [Common]
bin_read_no_raise [Sexp]
bin_read_no_raise_ [Sexp]
bin_read_no_raise__ [Sexp]
bin_read_only [Common]
bin_read_outer [Float_intf.S]
bin_read_outer_ [Float_intf.S]
bin_read_outer__ [Float_intf.S]
bin_read_read_only [Common]
bin_read_read_only_ [Common]
bin_read_read_only__ [Common]
bin_read_read_write [Common]
bin_read_read_write_ [Common]
bin_read_read_write__ [Common]
bin_read_sexp_array [Std_internal]
bin_read_sexp_array_ [Std_internal]
bin_read_sexp_array__ [Std_internal]
bin_read_sexp_bool [Std_internal]
bin_read_sexp_bool_ [Std_internal]
bin_read_sexp_bool__ [Std_internal]
bin_read_sexp_list [Std_internal]
bin_read_sexp_list_ [Std_internal]
bin_read_sexp_list__ [Std_internal]
bin_read_sexp_opaque [Std_internal]
bin_read_sexp_opaque_ [Std_internal]
bin_read_sexp_opaque__ [Std_internal]
bin_read_sexp_option [Std_internal]
bin_read_sexp_option [Stable_internal]
bin_read_sexp_option_ [Std_internal]
bin_read_sexp_option_ [Stable_internal]
bin_read_sexp_option__ [Std_internal]
bin_read_sexp_option__ [Stable_internal]
bin_read_sockaddr [Unix]
bin_read_sockaddr_ [Unix]
bin_read_sockaddr__ [Unix]
bin_read_socket_domain [Unix]
bin_read_socket_domain_ [Unix]
bin_read_socket_domain__ [Unix]
bin_read_socket_type [Unix]
bin_read_socket_type_ [Unix]
bin_read_socket_type__ [Unix]
bin_read_t [Time]
bin_read_t [Weekday]
bin_read_t [Unique_id_intf.Id]
bin_read_t [Stable_unit_test_intf.Unordered_container_arg]
bin_read_t [Stable_internal.Sexp]
bin_read_t [Stable_containers.Map.V1]
bin_read_t [Stable_containers.Hash_set.V1]
bin_read_t [Stable_containers.Hashtbl.V1]
bin_read_t [Stable_containers.Set.V1]
bin_read_t [Zone.Stable.V1]
bin_read_t [Weekday.Stable.V1]
bin_read_t [User_and_group.Stable.V1]
bin_read_t [Time.Stable.V1]
bin_read_t [String_id.Stable.V1]
bin_read_t [Span.Stable.V1]
bin_read_t [Span]
bin_read_t [Source_code_position0]
bin_read_t [Source_code_position]
bin_read_t [Signal]
bin_read_t [Set_once]
bin_read_t [Stable_unit_test_intf.Arg]
bin_read_t [Result.Stable.V1]
bin_read_t [Result]
bin_read_t [Ref]
bin_read_t [Piecewise_linear_intf.Value]
bin_read_t [Piecewise_linear_intf.Key]
bin_read_t [Piecewise_linear_intf.S]
bin_read_t [Pid]
bin_read_t [Or_error]
bin_read_t [Ordering]
bin_read_t [Option]
bin_read_t [Ofday.Stable.V1]
bin_read_t [Ofday]
bin_read_t [Nothing0]
bin_read_t [Nothing.Stable.V1]
bin_read_t [Month.Stable.V1]
bin_read_t [Month]
bin_read_t [Linux_ext.Timerfd.Clock]
bin_read_t [Linux_ext.Timerfd]
bin_read_t [Linux_ext.Sysinfo]
bin_read_t [Int_intf.S]
bin_read_t [Interval_intf.S.Set]
bin_read_t [Interval_intf.S]
bin_read_t [Interval_intf.S1.Set]
bin_read_t [Interval_intf.S1]
bin_read_t [Interval.Stable.V1.Ofday]
bin_read_t [Interval.Stable.V1.Int]
bin_read_t [Interval.Stable.V1.Float]
bin_read_t [Info]
bin_read_t [Identifiable.S]
bin_read_t [Host_and_port.Stable.V1]
bin_read_t [T.T_bin]
bin_read_t [Fqueue]
bin_read_t [Float_intf.S.Terse]
bin_read_t [Float_intf.S.Class]
bin_read_t [Dequeue]
bin_read_t [Date.Stable.V1]
bin_read_t [Date]
bin_read_t [Unix.Cidr]
bin_read_t [Unix.Inet_addr]
bin_read_t [Unix.Protocol_family]
bin_read_t [Unix.File_descr]
bin_read_t [String]
bin_read_t [Stack]
bin_read_t [Sexp.Sexp_maybe]
bin_read_t [Sexp.Sexp_opaque]
bin_read_t [Sexp.Sexp_array]
bin_read_t [Sexp.Sexp_list]
bin_read_t [Sexp.Sexp_option]
bin_read_t [Sexp]
bin_read_t [Set.Poly]
bin_read_t [Queue]
bin_read_t [Map.Poly]
bin_read_t [List]
bin_read_t [Lazy]
bin_read_t [Core_hashtbl_intf.Key_binable]
bin_read_t [Hashtbl.Poly]
bin_read_t [Gc.Control]
bin_read_t [Gc.Stat]
bin_read_t [Char]
bin_read_t [Array]
bin_read_t [Constrained_float.S]
bin_read_t [Comparator.Pre_binable]
bin_read_t [Byte_units.Measure]
bin_read_t [Byte_units]
bin_read_t [Bucket.S]
bin_read_t [Bucket.Contents]
bin_read_t [Bucket.Make]
bin_read_t [Bounded_int_table.With_key]
bin_read_t [Bool]
bin_read_t [Blang.Stable.V1]
bin_read_t [Blang]
bin_read_t [Bigstring]
bin_read_t_ [Time]
bin_read_t_ [Weekday]
bin_read_t_ [Unique_id_intf.Id]
bin_read_t_ [Stable_unit_test_intf.Unordered_container_arg]
bin_read_t_ [Stable_internal.Sexp]
bin_read_t_ [Stable_containers.Map.V1]
bin_read_t_ [Stable_containers.Hash_set.V1]
bin_read_t_ [Stable_containers.Hashtbl.V1]
bin_read_t_ [Stable_containers.Set.V1]
bin_read_t_ [Zone.Stable.V1]
bin_read_t_ [Weekday.Stable.V1]
bin_read_t_ [User_and_group.Stable.V1]
bin_read_t_ [Time.Stable.V1]
bin_read_t_ [String_id.Stable.V1]
bin_read_t_ [Span.Stable.V1]
bin_read_t_ [Span]
bin_read_t_ [Source_code_position0]
bin_read_t_ [Source_code_position]
bin_read_t_ [Signal]
bin_read_t_ [Set_once]
bin_read_t_ [Stable_unit_test_intf.Arg]
bin_read_t_ [Result.Stable.V1]
bin_read_t_ [Result]
bin_read_t_ [Ref]
bin_read_t_ [Piecewise_linear_intf.Value]
bin_read_t_ [Piecewise_linear_intf.Key]
bin_read_t_ [Piecewise_linear_intf.S]
bin_read_t_ [Pid]
bin_read_t_ [Or_error]
bin_read_t_ [Ordering]
bin_read_t_ [Option]
bin_read_t_ [Ofday.Stable.V1]
bin_read_t_ [Ofday]
bin_read_t_ [Nothing0]
bin_read_t_ [Nothing.Stable.V1]
bin_read_t_ [Month.Stable.V1]
bin_read_t_ [Month]
bin_read_t_ [Linux_ext.Timerfd.Clock]
bin_read_t_ [Linux_ext.Timerfd]
bin_read_t_ [Linux_ext.Sysinfo]
bin_read_t_ [Int_intf.S]
bin_read_t_ [Interval_intf.S.Set]
bin_read_t_ [Interval_intf.S]
bin_read_t_ [Interval_intf.S1.Set]
bin_read_t_ [Interval_intf.S1]
bin_read_t_ [Interval.Stable.V1.Ofday]
bin_read_t_ [Interval.Stable.V1.Int]
bin_read_t_ [Interval.Stable.V1.Float]
bin_read_t_ [Info]
bin_read_t_ [Identifiable.S]
bin_read_t_ [Host_and_port.Stable.V1]
bin_read_t_ [T.T_bin]
bin_read_t_ [Fqueue]
bin_read_t_ [Float_intf.S.Terse]
bin_read_t_ [Float_intf.S.Class]
bin_read_t_ [Dequeue]
bin_read_t_ [Date.Stable.V1]
bin_read_t_ [Date]
bin_read_t_ [Unix.Cidr]
bin_read_t_ [Unix.Inet_addr]
bin_read_t_ [Unix.Protocol_family]
bin_read_t_ [Unix.File_descr]
bin_read_t_ [String]
bin_read_t_ [Stack]
bin_read_t_ [Sexp.Sexp_maybe]
bin_read_t_ [Sexp.Sexp_opaque]
bin_read_t_ [Sexp.Sexp_array]
bin_read_t_ [Sexp.Sexp_list]
bin_read_t_ [Sexp.Sexp_option]
bin_read_t_ [Sexp]
bin_read_t_ [Set.Poly]
bin_read_t_ [Queue]
bin_read_t_ [Map.Poly]
bin_read_t_ [List]
bin_read_t_ [Lazy]
bin_read_t_ [Core_hashtbl_intf.Key_binable]
bin_read_t_ [Hashtbl.Poly]
bin_read_t_ [Gc.Control]
bin_read_t_ [Gc.Stat]
bin_read_t_ [Char]
bin_read_t_ [Array]
bin_read_t_ [Constrained_float.S]
bin_read_t_ [Comparator.Pre_binable]
bin_read_t_ [Byte_units.Measure]
bin_read_t_ [Byte_units]
bin_read_t_ [Bucket.S]
bin_read_t_ [Bucket.Contents]
bin_read_t_ [Bucket.Make]
bin_read_t_ [Bounded_int_table.With_key]
bin_read_t_ [Bool]
bin_read_t_ [Blang.Stable.V1]
bin_read_t_ [Blang]
bin_read_t_ [Bigstring]
bin_read_t__ [Time]
bin_read_t__ [Weekday]
bin_read_t__ [Unique_id_intf.Id]
bin_read_t__ [Stable_unit_test_intf.Unordered_container_arg]
bin_read_t__ [Stable_internal.Sexp]
bin_read_t__ [Stable_containers.Map.V1]
bin_read_t__ [Stable_containers.Hash_set.V1]
bin_read_t__ [Stable_containers.Hashtbl.V1]
bin_read_t__ [Stable_containers.Set.V1]
bin_read_t__ [Zone.Stable.V1]
bin_read_t__ [Weekday.Stable.V1]
bin_read_t__ [User_and_group.Stable.V1]
bin_read_t__ [Time.Stable.V1]
bin_read_t__ [String_id.Stable.V1]
bin_read_t__ [Span.Stable.V1]
bin_read_t__ [Span]
bin_read_t__ [Source_code_position0]
bin_read_t__ [Source_code_position]
bin_read_t__ [Signal]
bin_read_t__ [Set_once]
bin_read_t__ [Stable_unit_test_intf.Arg]
bin_read_t__ [Result.Stable.V1]
bin_read_t__ [Result]
bin_read_t__ [Ref]
bin_read_t__ [Piecewise_linear_intf.Value]
bin_read_t__ [Piecewise_linear_intf.Key]
bin_read_t__ [Piecewise_linear_intf.S]
bin_read_t__ [Pid]
bin_read_t__ [Or_error]
bin_read_t__ [Ordering]
bin_read_t__ [Option]
bin_read_t__ [Ofday.Stable.V1]
bin_read_t__ [Ofday]
bin_read_t__ [Nothing0]
bin_read_t__ [Nothing.Stable.V1]
bin_read_t__ [Month.Stable.V1]
bin_read_t__ [Month]
bin_read_t__ [Linux_ext.Timerfd.Clock]
bin_read_t__ [Linux_ext.Timerfd]
bin_read_t__ [Linux_ext.Sysinfo]
bin_read_t__ [Int_intf.S]
bin_read_t__ [Interval_intf.S.Set]
bin_read_t__ [Interval_intf.S]
bin_read_t__ [Interval_intf.S1.Set]
bin_read_t__ [Interval_intf.S1]
bin_read_t__ [Interval.Stable.V1.Ofday]
bin_read_t__ [Interval.Stable.V1.Int]
bin_read_t__ [Interval.Stable.V1.Float]
bin_read_t__ [Info]
bin_read_t__ [Identifiable.S]
bin_read_t__ [Host_and_port.Stable.V1]
bin_read_t__ [T.T_bin]
bin_read_t__ [Fqueue]
bin_read_t__ [Float_intf.S.Terse]
bin_read_t__ [Float_intf.S.Class]
bin_read_t__ [Dequeue]
bin_read_t__ [Date.Stable.V1]
bin_read_t__ [Date]
bin_read_t__ [Unix.Cidr]
bin_read_t__ [Unix.Inet_addr]
bin_read_t__ [Unix.Protocol_family]
bin_read_t__ [Unix.File_descr]
bin_read_t__ [String]
bin_read_t__ [Stack]
bin_read_t__ [Sexp.Sexp_maybe]
bin_read_t__ [Sexp.Sexp_opaque]
bin_read_t__ [Sexp.Sexp_array]
bin_read_t__ [Sexp.Sexp_list]
bin_read_t__ [Sexp.Sexp_option]
bin_read_t__ [Sexp]
bin_read_t__ [Set.Poly]
bin_read_t__ [Queue]
bin_read_t__ [Map.Poly]
bin_read_t__ [List]
bin_read_t__ [Lazy]
bin_read_t__ [Core_hashtbl_intf.Key_binable]
bin_read_t__ [Hashtbl.Poly]
bin_read_t__ [Gc.Control]
bin_read_t__ [Gc.Stat]
bin_read_t__ [Char]
bin_read_t__ [Array]
bin_read_t__ [Constrained_float.S]
bin_read_t__ [Comparator.Pre_binable]
bin_read_t__ [Byte_units.Measure]
bin_read_t__ [Byte_units]
bin_read_t__ [Bucket.S]
bin_read_t__ [Bucket.Contents]
bin_read_t__ [Bucket.Make]
bin_read_t__ [Bounded_int_table.With_key]
bin_read_t__ [Bool]
bin_read_t__ [Blang.Stable.V1]
bin_read_t__ [Blang]
bin_read_t__ [Bigstring]
bin_read_tcp_bool_option [Linux_ext]
bin_read_tcp_bool_option_ [Linux_ext]
bin_read_tcp_bool_option__ [Linux_ext]
bin_read_write [Common]
bin_reader_decimal [Common]
bin_reader_immutable [Common]
bin_reader_no_raise [Sexp]
bin_reader_outer [Float_intf.S]
bin_reader_read_only [Common]
bin_reader_read_write [Common]
bin_reader_sexp_array [Std_internal]
bin_reader_sexp_bool [Std_internal]
bin_reader_sexp_list [Std_internal]
bin_reader_sexp_opaque [Std_internal]
bin_reader_sexp_option [Std_internal]
bin_reader_sexp_option [Stable_internal]
bin_reader_sockaddr [Unix]
bin_reader_socket_domain [Unix]
bin_reader_socket_type [Unix]
bin_reader_t [Time]
bin_reader_t [Weekday]
bin_reader_t [Unique_id_intf.Id]
bin_reader_t [Stable_unit_test_intf.Unordered_container_arg]
bin_reader_t [Stable_internal.Sexp]
bin_reader_t [Stable_containers.Map.V1]
bin_reader_t [Stable_containers.Hash_set.V1]
bin_reader_t [Stable_containers.Hashtbl.V1]
bin_reader_t [Stable_containers.Set.V1]
bin_reader_t [Zone.Stable.V1]
bin_reader_t [Weekday.Stable.V1]
bin_reader_t [User_and_group.Stable.V1]
bin_reader_t [Time.Stable.V1]
bin_reader_t [String_id.Stable.V1]
bin_reader_t [Span.Stable.V1]
bin_reader_t [Span]
bin_reader_t [Source_code_position0]
bin_reader_t [Source_code_position]
bin_reader_t [Signal]
bin_reader_t [Set_once]
bin_reader_t [Stable_unit_test_intf.Arg]
bin_reader_t [Result.Stable.V1]
bin_reader_t [Result]
bin_reader_t [Ref]
bin_reader_t [Piecewise_linear_intf.Value]
bin_reader_t [Piecewise_linear_intf.Key]
bin_reader_t [Piecewise_linear_intf.S]
bin_reader_t [Pid]
bin_reader_t [Or_error]
bin_reader_t [Ordering]
bin_reader_t [Option]
bin_reader_t [Ofday.Stable.V1]
bin_reader_t [Ofday]
bin_reader_t [Nothing0]
bin_reader_t [Nothing.Stable.V1]
bin_reader_t [Month.Stable.V1]
bin_reader_t [Month]
bin_reader_t [Linux_ext.Timerfd.Clock]
bin_reader_t [Linux_ext.Timerfd]
bin_reader_t [Linux_ext.Sysinfo]
bin_reader_t [Int_intf.S]
bin_reader_t [Interval_intf.S.Set]
bin_reader_t [Interval_intf.S]
bin_reader_t [Interval_intf.S1.Set]
bin_reader_t [Interval_intf.S1]
bin_reader_t [Interval.Stable.V1.Ofday]
bin_reader_t [Interval.Stable.V1.Int]
bin_reader_t [Interval.Stable.V1.Float]
bin_reader_t [Info]
bin_reader_t [Identifiable.S]
bin_reader_t [Host_and_port.Stable.V1]
bin_reader_t [T.T_bin]
bin_reader_t [Fqueue]
bin_reader_t [Float_intf.S.Terse]
bin_reader_t [Float_intf.S.Class]
bin_reader_t [Dequeue]
bin_reader_t [Date.Stable.V1]
bin_reader_t [Date]
bin_reader_t [Unix.Cidr]
bin_reader_t [Unix.Inet_addr]
bin_reader_t [Unix.Protocol_family]
bin_reader_t [Unix.File_descr]
bin_reader_t [String]
bin_reader_t [Stack]
bin_reader_t [Sexp.Sexp_maybe]
bin_reader_t [Sexp.Sexp_opaque]
bin_reader_t [Sexp.Sexp_array]
bin_reader_t [Sexp.Sexp_list]
bin_reader_t [Sexp.Sexp_option]
bin_reader_t [Sexp]
bin_reader_t [Set.Poly]
bin_reader_t [Queue]
bin_reader_t [Map.Poly]
bin_reader_t [List]
bin_reader_t [Lazy]
bin_reader_t [Core_hashtbl_intf.Key_binable]
bin_reader_t [Hashtbl.Poly]
bin_reader_t [Gc.Control]
bin_reader_t [Gc.Stat]
bin_reader_t [Char]
bin_reader_t [Array]
bin_reader_t [Constrained_float.S]
bin_reader_t [Comparator.Pre_binable]
bin_reader_t [Byte_units.Measure]
bin_reader_t [Byte_units]
bin_reader_t [Bucket.S]
bin_reader_t [Bucket.Contents]
bin_reader_t [Bucket.Make]
bin_reader_t [Bounded_int_table.With_key]
bin_reader_t [Bool]
bin_reader_t [Blang.Stable.V1]
bin_reader_t [Blang]
bin_reader_t [Bigstring]
bin_reader_tcp_bool_option [Linux_ext]
bin_sexp_array [Std_internal]
bin_sexp_bool [Std_internal]
bin_sexp_list [Std_internal]
bin_sexp_opaque [Std_internal]
bin_sexp_option [Std_internal]
bin_sexp_option [Stable_internal]
bin_size_decimal [Common]
bin_size_immutable [Common]
bin_size_no_raise [Sexp]
bin_size_outer [Float_intf.S]
bin_size_read_only [Common]
bin_size_read_write [Common]
bin_size_sexp_array [Std_internal]
bin_size_sexp_bool [Std_internal]
bin_size_sexp_list [Std_internal]
bin_size_sexp_opaque [Std_internal]
bin_size_sexp_option [Std_internal]
bin_size_sexp_option [Stable_internal]
bin_size_sockaddr [Unix]
bin_size_socket_domain [Unix]
bin_size_socket_type [Unix]
bin_size_t [Time]
bin_size_t [Weekday]
bin_size_t [Unique_id_intf.Id]
bin_size_t [Stable_unit_test_intf.Unordered_container_arg]
bin_size_t [Stable_internal.Sexp]
bin_size_t [Stable_containers.Map.V1]
bin_size_t [Stable_containers.Hash_set.V1]
bin_size_t [Stable_containers.Hashtbl.V1]
bin_size_t [Stable_containers.Set.V1]
bin_size_t [Zone.Stable.V1]
bin_size_t [Weekday.Stable.V1]
bin_size_t [User_and_group.Stable.V1]
bin_size_t [Time.Stable.V1]
bin_size_t [String_id.Stable.V1]
bin_size_t [Span.Stable.V1]
bin_size_t [Span]
bin_size_t [Source_code_position0]
bin_size_t [Source_code_position]
bin_size_t [Signal]
bin_size_t [Set_once]
bin_size_t [Stable_unit_test_intf.Arg]
bin_size_t [Result.Stable.V1]
bin_size_t [Result]
bin_size_t [Ref]
bin_size_t [Piecewise_linear_intf.Value]
bin_size_t [Piecewise_linear_intf.Key]
bin_size_t [Piecewise_linear_intf.S]
bin_size_t [Pid]
bin_size_t [Or_error]
bin_size_t [Ordering]
bin_size_t [Option]
bin_size_t [Ofday.Stable.V1]
bin_size_t [Ofday]
bin_size_t [Nothing0]
bin_size_t [Nothing.Stable.V1]
bin_size_t [Month.Stable.V1]
bin_size_t [Month]
bin_size_t [Linux_ext.Timerfd.Clock]
bin_size_t [Linux_ext.Timerfd]
bin_size_t [Linux_ext.Sysinfo]
bin_size_t [Int_intf.S]
bin_size_t [Interval_intf.S.Set]
bin_size_t [Interval_intf.S]
bin_size_t [Interval_intf.S1.Set]
bin_size_t [Interval_intf.S1]
bin_size_t [Interval.Stable.V1.Ofday]
bin_size_t [Interval.Stable.V1.Int]
bin_size_t [Interval.Stable.V1.Float]
bin_size_t [Info]
bin_size_t [Identifiable.S]
bin_size_t [Host_and_port.Stable.V1]
bin_size_t [T.T_bin]
bin_size_t [Fqueue]
bin_size_t [Float_intf.S.Terse]
bin_size_t [Float_intf.S.Class]
bin_size_t [Dequeue]
bin_size_t [Date.Stable.V1]
bin_size_t [Date]
bin_size_t [Unix.Cidr]
bin_size_t [Unix.Inet_addr]
bin_size_t [Unix.Protocol_family]
bin_size_t [Unix.File_descr]
bin_size_t [String]
bin_size_t [Stack]
bin_size_t [Sexp.Sexp_maybe]
bin_size_t [Sexp.Sexp_opaque]
bin_size_t [Sexp.Sexp_array]
bin_size_t [Sexp.Sexp_list]
bin_size_t [Sexp.Sexp_option]
bin_size_t [Sexp]
bin_size_t [Set.Poly]
bin_size_t [Queue]
bin_size_t [Map.Poly]
bin_size_t [List]
bin_size_t [Lazy]
bin_size_t [Core_hashtbl_intf.Key_binable]
bin_size_t [Hashtbl.Poly]
bin_size_t [Gc.Control]
bin_size_t [Gc.Stat]
bin_size_t [Char]
bin_size_t [Array]
bin_size_t [Constrained_float.S]
bin_size_t [Comparator.Pre_binable]
bin_size_t [Byte_units.Measure]
bin_size_t [Byte_units]
bin_size_t [Bucket.S]
bin_size_t [Bucket.Contents]
bin_size_t [Bucket.Make]
bin_size_t [Bounded_int_table.With_key]
bin_size_t [Bool]
bin_size_t [Blang.Stable.V1]
bin_size_t [Blang]
bin_size_t [Bigstring]
bin_size_tcp_bool_option [Linux_ext]
bin_sockaddr [Unix]
The type of socket addresses.
bin_socket_domain [Unix]
The type of socket domains.
bin_socket_type [Unix]
The type of socket kinds, specifying the semantics of communications.
bin_t [Time]
bin_t [Weekday]
bin_t [Unique_id_intf.Id]
bin_t [Stable_unit_test_intf.Unordered_container_arg]
bin_t [Stable_internal.Sexp]
bin_t [Stable_containers.Map.V1]
bin_t [Stable_containers.Hash_set.V1]
bin_t [Stable_containers.Hashtbl.V1]
bin_t [Stable_containers.Set.V1]
bin_t [Zone.Stable.V1]
bin_t [Weekday.Stable.V1]
bin_t [User_and_group.Stable.V1]
bin_t [Time.Stable.V1]
bin_t [String_id.Stable.V1]
bin_t [Span.Stable.V1]
bin_t [Span]
bin_t [Source_code_position0]
bin_t [Source_code_position]
bin_t [Signal]
bin_t [Set_once]
bin_t [Stable_unit_test_intf.Arg]
bin_t [Result.Stable.V1]
bin_t [Result]
bin_t [Ref]
bin_t [Piecewise_linear_intf.Value]
bin_t [Piecewise_linear_intf.Key]
bin_t [Piecewise_linear_intf.S]
bin_t [Pid]
bin_t [Or_error]
bin_t [Ordering]
bin_t [Option]
bin_t [Ofday.Stable.V1]
bin_t [Ofday]
bin_t [Nothing0]
bin_t [Nothing.Stable.V1]
bin_t [Month.Stable.V1]
bin_t [Month]
bin_t [Linux_ext.Timerfd.Clock]
bin_t [Linux_ext.Timerfd]
bin_t [Linux_ext.Sysinfo]
bin_t [Int_intf.S]
bin_t [Interval_intf.S.Set]
bin_t [Interval_intf.S]
bin_t [Interval_intf.S1.Set]
bin_t [Interval_intf.S1]
bin_t [Interval.Stable.V1.Ofday]
bin_t [Interval.Stable.V1.Int]
bin_t [Interval.Stable.V1.Float]
bin_t [Info]
bin_t [Identifiable.S]
bin_t [Host_and_port.Stable.V1]
bin_t [T.T_bin]
bin_t [Fqueue]
bin_t [Float_intf.S.Terse]
bin_t [Float_intf.S.Class]
bin_t [Dequeue]
bin_t [Date.Stable.V1]
bin_t [Date]
bin_t [Unix.Cidr]
bin_t [Unix.Inet_addr]
bin_t [Unix.Protocol_family]
bin_t [Unix.File_descr]
bin_t [String]
bin_t [Stack]
bin_t [Sexp.Sexp_maybe]
bin_t [Sexp.Sexp_opaque]
bin_t [Sexp.Sexp_array]
bin_t [Sexp.Sexp_list]
bin_t [Sexp.Sexp_option]
bin_t [Sexp]
bin_t [Set.Poly]
bin_t [Queue]
bin_t [Map.Poly]
bin_t [List]
bin_t [Lazy]
bin_t [Core_hashtbl_intf.Key_binable]
bin_t [Hashtbl.Poly]
bin_t [Gc.Control]
bin_t [Gc.Stat]
bin_t [Char]
bin_t [Array]
bin_t [Constrained_float.S]
bin_t [Comparator.Pre_binable]
bin_t [Byte_units.Measure]
bin_t [Byte_units]
bin_t [Bucket.S]
bin_t [Bucket.Contents]
bin_t [Bucket.Make]
bin_t [Bounded_int_table.With_key]
bin_t [Bool]
bin_t [Blang.Stable.V1]
bin_t [Blang]
bin_t [Bigstring]
bin_tcp_bool_option [Linux_ext]
bin_write_decimal [Common]
bin_write_decimal_ [Common]
bin_write_immutable [Common]
bin_write_immutable_ [Common]
bin_write_no_raise [Sexp]
bin_write_no_raise_ [Sexp]
bin_write_outer [Float_intf.S]
bin_write_outer_ [Float_intf.S]
bin_write_read_only [Common]
bin_write_read_only_ [Common]
bin_write_read_write [Common]
bin_write_read_write_ [Common]
bin_write_sexp_array [Std_internal]
bin_write_sexp_array_ [Std_internal]
bin_write_sexp_bool [Std_internal]
bin_write_sexp_bool_ [Std_internal]
bin_write_sexp_list [Std_internal]
bin_write_sexp_list_ [Std_internal]
bin_write_sexp_opaque [Std_internal]
bin_write_sexp_opaque_ [Std_internal]
bin_write_sexp_option [Std_internal]
bin_write_sexp_option [Stable_internal]
bin_write_sexp_option_ [Std_internal]
bin_write_sexp_option_ [Stable_internal]
bin_write_sockaddr [Unix]
bin_write_sockaddr_ [Unix]
bin_write_socket_domain [Unix]
bin_write_socket_domain_ [Unix]
bin_write_socket_type [Unix]
bin_write_socket_type_ [Unix]
bin_write_t [Time]
bin_write_t [Weekday]
bin_write_t [Unique_id_intf.Id]
bin_write_t [Stable_unit_test_intf.Unordered_container_arg]
bin_write_t [Stable_internal.Sexp]
bin_write_t [Stable_containers.Map.V1]
bin_write_t [Stable_containers.Hash_set.V1]
bin_write_t [Stable_containers.Hashtbl.V1]
bin_write_t [Stable_containers.Set.V1]
bin_write_t [Zone.Stable.V1]
bin_write_t [Weekday.Stable.V1]
bin_write_t [User_and_group.Stable.V1]
bin_write_t [Time.Stable.V1]
bin_write_t [String_id.Stable.V1]
bin_write_t [Span.Stable.V1]
bin_write_t [Span]
bin_write_t [Source_code_position0]
bin_write_t [Source_code_position]
bin_write_t [Signal]
bin_write_t [Set_once]
bin_write_t [Stable_unit_test_intf.Arg]
bin_write_t [Result.Stable.V1]
bin_write_t [Result]
bin_write_t [Ref]
bin_write_t [Piecewise_linear_intf.Value]
bin_write_t [Piecewise_linear_intf.Key]
bin_write_t [Piecewise_linear_intf.S]
bin_write_t [Pid]
bin_write_t [Or_error]
bin_write_t [Ordering]
bin_write_t [Option]
bin_write_t [Ofday.Stable.V1]
bin_write_t [Ofday]
bin_write_t [Nothing0]
bin_write_t [Nothing.Stable.V1]
bin_write_t [Month.Stable.V1]
bin_write_t [Month]
bin_write_t [Linux_ext.Timerfd.Clock]
bin_write_t [Linux_ext.Timerfd]
bin_write_t [Linux_ext.Sysinfo]
bin_write_t [Int_intf.S]
bin_write_t [Interval_intf.S.Set]
bin_write_t [Interval_intf.S]
bin_write_t [Interval_intf.S1.Set]
bin_write_t [Interval_intf.S1]
bin_write_t [Interval.Stable.V1.Ofday]
bin_write_t [Interval.Stable.V1.Int]
bin_write_t [Interval.Stable.V1.Float]
bin_write_t [Info]
bin_write_t [Identifiable.S]
bin_write_t [Host_and_port.Stable.V1]
bin_write_t [T.T_bin]
bin_write_t [Fqueue]
bin_write_t [Float_intf.S.Terse]
bin_write_t [Float_intf.S.Class]
bin_write_t [Dequeue]
bin_write_t [Date.Stable.V1]
bin_write_t [Date]
bin_write_t [Unix.Cidr]
bin_write_t [Unix.Inet_addr]
bin_write_t [Unix.Protocol_family]
bin_write_t [Unix.File_descr]
bin_write_t [String]
bin_write_t [Stack]
bin_write_t [Sexp.Sexp_maybe]
bin_write_t [Sexp.Sexp_opaque]
bin_write_t [Sexp.Sexp_array]
bin_write_t [Sexp.Sexp_list]
bin_write_t [Sexp.Sexp_option]
bin_write_t [Sexp]
bin_write_t [Set.Poly]
bin_write_t [Queue]
bin_write_t [Map.Poly]
bin_write_t [List]
bin_write_t [Lazy]
bin_write_t [Core_hashtbl_intf.Key_binable]
bin_write_t [Hashtbl.Poly]
bin_write_t [Gc.Control]
bin_write_t [Gc.Stat]
bin_write_t [Char]
bin_write_t [Array]
bin_write_t [Constrained_float.S]
bin_write_t [Comparator.Pre_binable]
bin_write_t [Byte_units.Measure]
bin_write_t [Byte_units]
bin_write_t [Bucket.S]
bin_write_t [Bucket.Contents]
bin_write_t [Bucket.Make]
bin_write_t [Bounded_int_table.With_key]
bin_write_t [Bool]
bin_write_t [Blang.Stable.V1]
bin_write_t [Blang]
bin_write_t [Bigstring]
bin_write_t_ [Time]
bin_write_t_ [Weekday]
bin_write_t_ [Unique_id_intf.Id]
bin_write_t_ [Stable_unit_test_intf.Unordered_container_arg]
bin_write_t_ [Stable_internal.Sexp]
bin_write_t_ [Stable_containers.Map.V1]
bin_write_t_ [Stable_containers.Hash_set.V1]
bin_write_t_ [Stable_containers.Hashtbl.V1]
bin_write_t_ [Stable_containers.Set.V1]
bin_write_t_ [Zone.Stable.V1]
bin_write_t_ [Weekday.Stable.V1]
bin_write_t_ [User_and_group.Stable.V1]
bin_write_t_ [Time.Stable.V1]
bin_write_t_ [String_id.Stable.V1]
bin_write_t_ [Span.Stable.V1]
bin_write_t_ [Span]
bin_write_t_ [Source_code_position0]
bin_write_t_ [Source_code_position]
bin_write_t_ [Signal]
bin_write_t_ [Set_once]
bin_write_t_ [Stable_unit_test_intf.Arg]
bin_write_t_ [Result.Stable.V1]
bin_write_t_ [Result]
bin_write_t_ [Ref]
bin_write_t_ [Piecewise_linear_intf.Value]
bin_write_t_ [Piecewise_linear_intf.Key]
bin_write_t_ [Piecewise_linear_intf.S]
bin_write_t_ [Pid]
bin_write_t_ [Or_error]
bin_write_t_ [Ordering]
bin_write_t_ [Option]
bin_write_t_ [Ofday.Stable.V1]
bin_write_t_ [Ofday]
bin_write_t_ [Nothing0]
bin_write_t_ [Nothing.Stable.V1]
bin_write_t_ [Month.Stable.V1]
bin_write_t_ [Month]
bin_write_t_ [Linux_ext.Timerfd.Clock]
bin_write_t_ [Linux_ext.Timerfd]
bin_write_t_ [Linux_ext.Sysinfo]
bin_write_t_ [Int_intf.S]
bin_write_t_ [Interval_intf.S.Set]
bin_write_t_ [Interval_intf.S]
bin_write_t_ [Interval_intf.S1.Set]
bin_write_t_ [Interval_intf.S1]
bin_write_t_ [Interval.Stable.V1.Ofday]
bin_write_t_ [Interval.Stable.V1.Int]
bin_write_t_ [Interval.Stable.V1.Float]
bin_write_t_ [Info]
bin_write_t_ [Identifiable.S]
bin_write_t_ [Host_and_port.Stable.V1]
bin_write_t_ [T.T_bin]
bin_write_t_ [Fqueue]
bin_write_t_ [Float_intf.S.Terse]
bin_write_t_ [Float_intf.S.Class]
bin_write_t_ [Dequeue]
bin_write_t_ [Date.Stable.V1]
bin_write_t_ [Date]
bin_write_t_ [Unix.Cidr]
bin_write_t_ [Unix.Inet_addr]
bin_write_t_ [Unix.Protocol_family]
bin_write_t_ [Unix.File_descr]
bin_write_t_ [String]
bin_write_t_ [Stack]
bin_write_t_ [Sexp.Sexp_maybe]
bin_write_t_ [Sexp.Sexp_opaque]
bin_write_t_ [Sexp.Sexp_array]
bin_write_t_ [Sexp.Sexp_list]
bin_write_t_ [Sexp.Sexp_option]
bin_write_t_ [Sexp]
bin_write_t_ [Set.Poly]
bin_write_t_ [Queue]
bin_write_t_ [Map.Poly]
bin_write_t_ [List]
bin_write_t_ [Lazy]
bin_write_t_ [Core_hashtbl_intf.Key_binable]
bin_write_t_ [Hashtbl.Poly]
bin_write_t_ [Gc.Control]
bin_write_t_ [Gc.Stat]
bin_write_t_ [Char]
bin_write_t_ [Array]
bin_write_t_ [Constrained_float.S]
bin_write_t_ [Comparator.Pre_binable]
bin_write_t_ [Byte_units.Measure]
bin_write_t_ [Byte_units]
bin_write_t_ [Bucket.S]
bin_write_t_ [Bucket.Contents]
bin_write_t_ [Bucket.Make]
bin_write_t_ [Bounded_int_table.With_key]
bin_write_t_ [Bool]
bin_write_t_ [Blang.Stable.V1]
bin_write_t_ [Blang]
bin_write_t_ [Bigstring]
bin_write_tcp_bool_option [Linux_ext]
bin_write_tcp_bool_option_ [Linux_ext]
bin_writer_decimal [Common]
bin_writer_immutable [Common]
bin_writer_no_raise [Sexp]
bin_writer_outer [Float_intf.S]
bin_writer_read_only [Common]
bin_writer_read_write [Common]
bin_writer_sexp_array [Std_internal]
bin_writer_sexp_bool [Std_internal]
bin_writer_sexp_list [Std_internal]
bin_writer_sexp_opaque [Std_internal]
bin_writer_sexp_option [Std_internal]
bin_writer_sexp_option [Stable_internal]
bin_writer_sockaddr [Unix]
bin_writer_socket_domain [Unix]
bin_writer_socket_type [Unix]
bin_writer_t [Time]
bin_writer_t [Weekday]
bin_writer_t [Unique_id_intf.Id]
bin_writer_t [Stable_unit_test_intf.Unordered_container_arg]
bin_writer_t [Stable_internal.Sexp]
bin_writer_t [Stable_containers.Map.V1]
bin_writer_t [Stable_containers.Hash_set.V1]
bin_writer_t [Stable_containers.Hashtbl.V1]
bin_writer_t [Stable_containers.Set.V1]
bin_writer_t [Zone.Stable.V1]
bin_writer_t [Weekday.Stable.V1]
bin_writer_t [User_and_group.Stable.V1]
bin_writer_t [Time.Stable.V1]
bin_writer_t [String_id.Stable.V1]
bin_writer_t [Span.Stable.V1]
bin_writer_t [Span]
bin_writer_t [Source_code_position0]
bin_writer_t [Source_code_position]
bin_writer_t [Signal]
bin_writer_t [Set_once]
bin_writer_t [Stable_unit_test_intf.Arg]
bin_writer_t [Result.Stable.V1]
bin_writer_t [Result]
bin_writer_t [Ref]
bin_writer_t [Piecewise_linear_intf.Value]
bin_writer_t [Piecewise_linear_intf.Key]
bin_writer_t [Piecewise_linear_intf.S]
bin_writer_t [Pid]
bin_writer_t [Or_error]
bin_writer_t [Ordering]
bin_writer_t [Option]
bin_writer_t [Ofday.Stable.V1]
bin_writer_t [Ofday]
bin_writer_t [Nothing0]
bin_writer_t [Nothing.Stable.V1]
bin_writer_t [Month.Stable.V1]
bin_writer_t [Month]
bin_writer_t [Linux_ext.Timerfd.Clock]
bin_writer_t [Linux_ext.Timerfd]
bin_writer_t [Linux_ext.Sysinfo]
bin_writer_t [Int_intf.S]
bin_writer_t [Interval_intf.S.Set]
bin_writer_t [Interval_intf.S]
bin_writer_t [Interval_intf.S1.Set]
bin_writer_t [Interval_intf.S1]
bin_writer_t [Interval.Stable.V1.Ofday]
bin_writer_t [Interval.Stable.V1.Int]
bin_writer_t [Interval.Stable.V1.Float]
bin_writer_t [Info]
bin_writer_t [Identifiable.S]
bin_writer_t [Host_and_port.Stable.V1]
bin_writer_t [T.T_bin]
bin_writer_t [Fqueue]
bin_writer_t [Float_intf.S.Terse]
bin_writer_t [Float_intf.S.Class]
bin_writer_t [Dequeue]
bin_writer_t [Date.Stable.V1]
bin_writer_t [Date]
bin_writer_t [Unix.Cidr]
bin_writer_t [Unix.Inet_addr]
bin_writer_t [Unix.Protocol_family]
bin_writer_t [Unix.File_descr]
bin_writer_t [String]
bin_writer_t [Stack]
bin_writer_t [Sexp.Sexp_maybe]
bin_writer_t [Sexp.Sexp_opaque]
bin_writer_t [Sexp.Sexp_array]
bin_writer_t [Sexp.Sexp_list]
bin_writer_t [Sexp.Sexp_option]
bin_writer_t [Sexp]
bin_writer_t [Set.Poly]
bin_writer_t [Queue]
bin_writer_t [Map.Poly]
bin_writer_t [List]
bin_writer_t [Lazy]
bin_writer_t [Core_hashtbl_intf.Key_binable]
bin_writer_t [Hashtbl.Poly]
bin_writer_t [Gc.Control]
bin_writer_t [Gc.Stat]
bin_writer_t [Char]
bin_writer_t [Array]
bin_writer_t [Constrained_float.S]
bin_writer_t [Comparator.Pre_binable]
bin_writer_t [Byte_units.Measure]
bin_writer_t [Byte_units]
bin_writer_t [Bucket.S]
bin_writer_t [Bucket.Contents]
bin_writer_t [Bucket.Make]
bin_writer_t [Bounded_int_table.With_key]
bin_writer_t [Bool]
bin_writer_t [Blang.Stable.V1]
bin_writer_t [Blang]
Note that the sexps are not directly inferred from the type above -- there are lots of fancy shortcuts.
bin_writer_t [Bigstring]
bin_writer_tcp_bool_option [Linux_ext]
bind [Monad.S2]
bind [Monad.Basic2]
bind [Monad.Basic]
bind [Monad.Make2]
bind [Monad.Make]
bind [Monad.S]
bind t f = t >>= f
bind [Unix]
Bind a socket to an address.
bind_any [Unix.Inet_addr]
A special address, for use only with bind, representing all the Internet addresses that the host machine possesses.
bind_any_inet6 [Unix.Inet_addr]
bind_to_interface [Linux_ext]
bit_and [Int_intf.S]
bit_not [Int_intf.S]
bit_or [Int_intf.S]
bit_xor [Int_intf.S]
bits [Random.State]
These functions are the same as the basic functions, except that they use (and update) the given PRNG state instead of the default one.
bits [Random]
Return 30 random bits in a nonnegative integer.
bits_of_float [Int64]
bits_of_float [Int32]
blit [Make_substring.Base]
blit [String]
blit [Array]
Array.blit v1 o1 v2 o2 len copies len elements from array v1, starting at element number o1, to array v2, starting at element number o2.
blit [Bigstring]
blit [Bigbuffer]
blit_bigstring_string [Bigstring]
blit_from_bigstring [Substring_intf.S]
blit_from_bigstring [Make_substring.Base]
blit_from_bigstring [Make_substring.F]
blit_from_string [Substring_intf.S]
blit_from_string [Make_substring.Base]
blit_from_string [Make_substring.F]
blit_string_bigstring [Bigstring]
blit_string_of_int_2_digits [Time_internal.Helpers]
blit_string_of_int_3_digits [Time_internal.Helpers]
blit_string_of_int_4_digits [Time_internal.Helpers]
blit_to_bigstring [Substring_intf.S]
blit_to_bigstring [Make_substring.Base]
blit_to_bigstring [Make_substring.F]
blit_to_string [Substring_intf.S]
blit_to_string [Make_substring.Base]
blit_to_string [Make_substring.F]
block_forever [Thread]
block_forever () will block the calling thread forever.
blocking_create [Lock_file.Nfs]
blocking_create ?message path like create, but sleeps for 1 second between lock attempts and does not return until it succeeds
blocking_create [Lock_file]
blocking_create t tries to create the lock.
bool [Command.Spec]
bool [Random.State]
bool [Random]
Random.bool () returns true or false with probability 0.5 each.
bot [Fqueue]
like bot_exn, but returns result optionally, without exception.
bot_exn [Fqueue]
returns the bottom (most-recently enqueued element).
both [Option]
bound [Interval_intf.Gen]
bound t x returns None iff is_empty t.
bounds [Interval_intf.Gen]
bounds_exn [Interval_intf.Gen]
bprintf [Std_internal]
bprintf [Printf]
bprintf [Bigbuffer.Printf]
bprintf [Bigbuffer.Format]
broadcast [Condition]
build_info [Command.Deprecated]
business_dates_between [Date]
bytes [Heap_block]
bytes t returns the number of bytes on the heap taken by heap block t, including the header.
bytes [Byte_units]

C
c_int_size [Sys]
c_int_size returns the number of bits in a C int.
call [Result]
call [Option]
call x f run optional function on argument
can_read [Unix.Open_flags]
can_read t iff t has rdonly or rdwr
can_write [Unix.Open_flags]
can_read t iff t has wronly or rdwr
capitalize [String]
cartesian_product [List]
cartesian_product [Array]
catch [Printexc]
catch_break [Sys]
Warning: this function clobbers the Signal.int (SIGINT) handler.
ceil [Common]
ceil_pow2 [Int_math]
ceil_pow2 [Int]
ceil_pow2 x returns the smallest power of 2 that is greater than or equal to x.
cg [Quickcheck]
character generator
change [Univ_map.Multi]
change [Univ_map.With_fold]
change [Univ_map.With_default]
change [Univ_map]
change [Core_map_intf.Accessors]
change map key f updates the given map by changing the value stored under key according to f.
change [Core_hashtbl_intf.Accessors]
change t key f updates the given table by changing the value stored under key according to f, just like Map.change (see that for example).
change_exn [Univ_map]
chdir [Unix]
Change the process working directory.
chdir [Sys]
Change the current working directory of the process.
check_args [Bigstring]
check_args ~loc ~pos ~len bstr checks the position and length arguments pos and len for bigstrings bstr.
check_heap_property [Heap]
check_heap_property h asserts that h has the heap property: that all nodes are less than their children by h's comparison function.
check_suffix [Filename]
check_suffix name suff returns true if the filename name ends with the suffix suff.
chld [Signal]
Ignore Child process terminated
chmod [Unix]
Change the permissions of the named file.
choose [Core_set_intf.Accessors]
choose [Bag]
choose t returns some element in the bag.
choose_exn [Core_set_intf.Accessors]
chop_extension [Filename]
Return the given file name without its extension.
chop_prefix [String]
chop_prefix_exn [String]
chop_prefix s ~pref returns a copy s without the leading pref
chop_suffix [String]
chop_suffix [Filename]
chop_suffix name suff removes the suffix suff from the filename name.
chop_suffix_exn [String]
chop_suffix s ~suf returns a copy s without the trailing suff
chown [Unix]
Change the owner uid and owner gid of the named file.
chroot [Unix]
Change the process root directory.
classify [Float_intf.S]
classify_float [Common]
clear [Squeue]
clears the queue
clear [Linux_ext.Timerfd]
clear t causes t to not fire any more.
clear [Hash_set_intf.Accessors]
clear [Hash_queue.S]
clear the queue
clear [Hash_queue.Make]
clear [Doubly_linked]
clear t removes all elements from the list in constant time.
clear [Dequeue]
clear t removes all elements from t.
clear [Stack]
clear t discards all elements from t.
clear [Queue]
clear t discards all elements from t.
clear [Core_hashtbl_intf.Accessors]
clear [Bigbuffer]
Empty the buffer.
clear [Bag]
clear t removes all elements from the bag.
clear_close_on_exec [Unix]
Clear the ``close-on-exec'' flag on the given descriptor.
clear_nonblock [Unix]
Clear the ``non-blocking'' flag on the given descriptor.
cloexec [Linux_ext.Timerfd.Flags]
close [Out_channel]
close [In_channel]
close [Unix]
Close a file descriptor.
close_in [Common]
we have our own version of these two, the INRIA version doesn't release the runtime lock.
close_out [Common]
close_process [Unix]
Close channels opened by UnixLabels.open_process, wait for the associated command to terminate, and return its termination status.
close_process_full [Unix]
Close channels opened by UnixLabels.open_process_full, wait for the associated command to terminate, and return its termination status.
close_process_in [Unix]
Close channels opened by UnixLabels.open_process_in, wait for the associated command to terminate, and return its termination status.
close_process_out [Unix]
Close channels opened by UnixLabels.open_process_out, wait for the associated command to terminate, and return its termination status.
closedir [Unix]
Close a directory descriptor.
code [Unix.Exit]
combine [Result]
combine [Array]
combine ar combines two arrays to an array of pairs.
combine_errors [Or_error]
combine_errors ts returns Ok if every element in ts is Ok, else it returns Error with all the errors in ts.
combine_errors_unit [Or_error]
combine_errors_unit returns Ok if every element in ts is Ok (), else it returns Error with all the errors in ts, like combine_errors.
command [Sys]
Execute the given shell command and return its exit code.
command_exn [Sys]
compact [Gc]
Perform a full major collection and compact the heap.
compactions [Gc.Stat.Fields]
compactions [Gc.Stat]
comparator [Set]
comparator [Map]
comparator [Comparator.S1]
comparator [Comparator.S_binable]
comparator [Comparator.S]
comparator [Comparable.S_common]
compare [Tuple.T3]
compare [Tuple.T2]
compare [Stable_internal.Sexp]
compare [Weekday.Stable.V1]
compare [User_and_group.Stable.V1]
compare [Time.Stable.V1]
compare [String_id.Stable.V1]
compare [Span.Stable.V1]
compare [Source_code_position0]
compare [Result.Stable.V1]
compare [Result]
compare [Polymorphic_compare]
compare [Piecewise_linear_intf.S]
compare [Ordering]
compare [Option]
compare [Nothing0]
compare [Nothing.Stable.V1]
compare [No_polymorphic_compare]
compare [Month.Stable.V1]
compare [Linux_ext.Timerfd.Clock]
compare [Linux_ext.Timerfd]
compare [Host_and_port.Stable.V1]
compare [Hashable.S]
compare [Fqueue]
compare [Date.Stable.V1]
compare [Sexp.Sexp_maybe]
compare [Sexp.Sexp_opaque]
compare [Sexp.Sexp_array]
compare [Sexp.Sexp_list]
compare [Sexp.Sexp_option]
compare [Core_set_intf.S.Tree]
compare [Core_set_intf.S]
compare [Set.Poly]
compare [Set]
compare [Core_map_intf.S]
compare [Map.Poly]
compare [List]
lexicographic
compare [Lazy]
compare [Core_hashtbl_intf.Key]
compare [Comparator.Pre_binable]
compare [Comparator.Pre]
compare [Polymorphic_compare_intf.S]
compare [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
compare [Blang.Stable.V1]
compare [Blang]
compare_decimal [Common]
compare_direct [Core_set_intf.Accessors]
compare_direct [Core_map_intf.Accessors]
Total ordering between maps.
compare_immutable [Common]
compare_read_only [Common]
Types for use as markers in phantom types.
compare_read_write [Common]
compare_sexp_array [Std_internal]
compare_sexp_bool [Std_internal]
compare_sexp_list [Std_internal]
compare_sexp_opaque [Std_internal]
compare_sexp_option [Std_internal]
compare_sexp_option [Stable_internal]
compare_t [Stable_internal.Sexp]
compare_t [Source_code_position0]
compare_t [Nothing0]
compare_value [Interval_intf.Gen]
complement [Flags_intf.S]
compose [Fn]
compose f g x is f (g x)
concat [Substring_intf.S]
concat [Make_substring.F]
concat [String]
concatanate all strings in the list using separator sep (default sep "")
concat [List]
Concatenate a list of lists.
concat [Filename]
concat p1 p2 returns a path equivalent to p1 ^ "/" ^ p2.
concat [Array]
Same as Array.append, but concatenates a list of arrays.
concat_array [String]
concat_array sep ar like String.concat, but operates on arrays
concat_bigstring [Substring_intf.S]
concat_bigstring [Make_substring.F]
concat_map [String]
Like map, but allows replacement of a single character with zero or two or more characters.
concat_map [Queue]
concat_map [List]
concat_map t ~f is concat (map t ~f), except that there is no guarantee about the order in which f is applied to the elements of t.
concat_map [Array]
concat_mapi [List]
concat_mapi t ~f is like concat_map, but passes the index as an argument
concat_no_order [List]
Same as concat but faster and without preserving any ordering (ie for lists that are essentially viewed as multi-sets.
concat_string [Substring_intf.S]
concat_string [Make_substring.F]
cond_pop [Heap]
cond_pop heap cond
cond_pop [Hash_heap.S]
cond_pop [Hash_heap.Make]
cond_pop_heap_el [Heap]
cond_pop_heap_el heap cond
cond_pop_with_key [Hash_heap.S]
cond_pop_with_key [Hash_heap.Make]
connect [Unix]
Connect a socket to an address.
cons [List]
const [Fn]
produces a function that just returns its first argument
const [Common]
const [Command.Spec]
a hard-coded parameter
constant [Blang]
constant_value [Blang]
constr_name [Univ]
cont [Signal]
Continue Continue
contains [Interval_intf.Gen_set]
contains [Interval_intf.Gen]
contains [String]
contains_dup [List]
contains_dup True if there are any two elements in the list which are the same.
contains_set [Interval_intf.Gen_set]
contents [Bigbuffer]
Return a copy of the current contents of the buffer.
conv [Type_equal]
conv t x uses the type equality t : (a, b) t as evidence to safely cast x from type a to type b.
convert [Time]
copy [Heap]
copy heap
copy [Hash_set_intf.Accessors]
copy [Hash_heap.S]
copy [Hash_heap.Make]
copy [Doubly_linked]
copy t returns a copy of t.
copy [String]
copy [Stack]
copy t returns a copy of t.
copy [Queue]
copy t returns a copy of t.
copy [Core_hashtbl_intf.Accessors]
copy [Array]
Array.copy a returns a copy of a, that is, a fresh array containing the same elements as a.
copy [Random.State]
core_file_size [Unix.RLimit]
cores [Linux_ext]
cores ()
count [Hash_queue.Make]
count [List]
count f l is the number of elements in l that satisfy the predicate f.
count [Container.Generic_phantom]
count [Container.Generic]
count [Container.S1_phantom]
count [Container.S1]
count [Container.S0_phantom]
count [Container.S0]
count [Container.Make]
counters [Gc]
Return (minor_words, promoted_words, major_words).
cpu_seconds [Unix.RLimit]
crc32 [Crc]
Compute the 32-bit crc
crc32hex [Crc]
String version of the crc, encoded in hex.
creat [Unix.Open_flags]
creation
create [Weekday]
create [Uuid]
create () returns a new t guaranteed to not be equal to any other UUID generated by any process anywhere.
create [User_and_group]
create [Unpack_buffer]
create [Univ_map.Multi.Key]
create [Univ_map.With_fold.Key]
create [Univ_map.With_default.Key]
create [Univ_map.Key]
create [Univ.Constr]
create name to_sexp if the type 'a doesn't support sexp conversion, then a good practice is to use sexp_of_opaque as the converter.
create [Univ]
create [Unique_id_intf.Id]
Always returns a value that is not equal to any other value created with create.
create [Union_find]
create v returns a new object in its own equivalence class that has value v.
create [Type_equal.Id]
create ~name defines a new type identity.
create [Tuple.T3]
create [Tuple.T2]
create [Timer]
create ?min_size () creates a new timer.
create [Thread_safe_queue]
create [Squeue]
create maxsize returns a synchronized queue bounded to have no more than maxsize elements.
create [Span]
create [Set_once]
create [Ref]
create [Piecewise_linear_intf.S]
create enforces that key values are non-decreasing.
create [Out_channel]
create [Ofday]
create [Nano_mutex]
create () returns a new, unlocked mutex.
create [Mutex0]
create [Substring_intf.S]
create ?pos ?len base creates a substring of the base sequence of * length len starting at position pos, i.e.
create [Make_substring.Base]
create [Make_substring.F]
create [Lock_file.Nfs]
lock ?message path tries to create and lock the file at path by creating a hard link to path.nfs_lock.
create [Lock_file]
create ?close_on_exec ?message path tries to create a file at path containing the text message, which defaults to the pid of the locking process.
create [Linux_ext.Epoll]
create ~num_file_descrs creates a new epoll set able to watch file descriptors in [0, num_file_descrs).
create [Linux_ext.Timerfd]
create ?flags clock creates a new timer file descriptor.
create [Interval_intf.S]
create [Interval_intf.Gen_set]
create [Interval_intf.Gen]
create l u returns the interval with lower bound l and upper bound u, unless l > u, in which case create returns the empty interval.
create [Info]
For create msg z sexp_of_z, be careful to use only immutable values for z, or be aware that z will be lazily converted to a sexp at a later point in time, which will pick up the then-current state of z.
create [In_channel]
create [Host_and_port]
create [Heap_block]
create v returns Some t if v is a heap block, where t is physically equal to v
create [Heap]
create ?min_size cmp
create [Hash_set_intf.Creators]
create [Hash_heap.S]
create [Hash_queue.S]
create () returns an empty queue.
create [Hash_heap.Make]
create [Hash_queue.Make]
create [Force_once]
create f creates a new force_once
create [Doubly_linked]
creating doubly-linked lists
create [Dequeue]
create [Weak]
create [Unix.Resource_usage.Fields]
create [Thread]
Thread.create funct arg creates a new thread of control, in which the function application funct arg is executed concurrently with the other threads of the program.
create [String]
create [Stack]
create () returns an empty stack.
create [Queue]
create () returns an empty queue.
create [Mutex]
create [Core_hashtbl_intf.Creators]
create [Gc.Control.Fields]
create [Gc.Stat.Fields]
create [Condition]
create [Array]
create ~len x creates an array of length len with the value x populated in each element
create [Command.Spec.Arg_type]
an argument type includes information about how to parse values of that type from the command line, and (optionally) how to auto-complete partial arguments of that type via bash's programmable TAB-completion.
create [Byte_units]
create measure value creates a t from value units of the given measure.
create [Bucket.S]
create [Bucket.Make]
create [Bounded_int_table.With_key]
create [Bounded_int_table]
create ~num_keys ~key_to_int returns a table where the keys can map to 0 ..
create [Bigstring]
create length
create [Bigbuffer]
create n returns a fresh buffer, initially empty.
create [Bag]
create () returns an empty bag.
create' [Thread_safe_queue]
create_alarm [Gc]
create_alarm f will arrange for f to be called at the end of each major GC cycle, starting with the current cycle or the next one.
create_bigstring [Binable0]
create_bin_prot [Unpack_buffer.Unpack_one]
create_bin_prot reader returns an unpacker that reads the "size-prefixed" bin_prot encoding, in which a value is encoded by first writing the length of the bin_prot data as a 64-bit int, and then writing the data itself.
create_bin_prot [Unpack_buffer]
create_bin_prot reader returns an unpack buffer that unpacks the "size-prefixed" bin_prot encoding, in which a value is encoded by first writing the length of the bin_prot data as a 64-bit int, and then writing the bin_prot data itself.
create_ending_after [Interval.Time]
create_ending_after ?zone (od1, od2) ~now returns the smallest interval (t1 t2) with minimum t2 such that t2 >= now, to_ofday t1 = od1, and to_ofday t2 = od2.
create_ending_before [Interval.Time]
create_ending_before ?zone (od1, od2) ~ubound returns the smallest interval (t1 t2) with maximum t2 such that t2 <= ubound, to_ofday t1 = od1, and to_ofday t2 = od2.
create_exn [Lock_file.Nfs]
create_exn ?message path like create, but throws an exception when it fails to obtain the lock
create_exn [Lock_file]
create_exn ?message path is like create except that it throws an exception on failure instead of returning a boolean value
create_exn [Heap_block]
create_exn [Date]
create_exn ~y ~m ~d creates the date specified in the arguments.
create_from_intervals [Interval_intf.Gen_set]
create_mapped [Core_hashtbl_intf.Creators]
create_process [Unix]
create_process ~prog ~args forks a new process that executes the program prog with arguments args.
create_process_env [Unix]
create_with_key [Core_hashtbl_intf.Creators]
create_with_key_exn [Core_hashtbl_intf.Creators]
critical_section [Nano_mutex]
critical_section [Mutex0]
critical_section [Lock_file.Nfs]
critical_section ?message path ~f wrap function f (including exceptions escaping it) by first locking (using Lock_file.Nfs.create_exn) and then unlocking the given lock file.
critical_section [Mutex]
current [Arg]
Position (in Sys.argv) of the argument being processed.
current_dir_name [Filename]
The conventional name for the current directory (e.g.
current_thread_has_lock [Nano_mutex]
current_thread_has_lock t returns true iff the current thread has t locked.
curry [Tuple.T3]
curry [Tuple.T2]

D
daemonize [Daemon]
daemonize makes the executing process a daemon.
daemonize_wait [Daemon]
daemonize_wait makes the executing process a daemon, but delays full detachment from the calling shell/process until the returned "release" closure is called.
data [Core_map_intf.Accessors]
returns list of data in map
data [Core_hashtbl_intf.Accessors]
filter_inplace t ~f removes all the elements from t that don't satisfy f.
data [Bounded_int_table]
data_segment [Unix.RLimit]
date [Command.Spec]
dates_between [Date]
day [Span]
day [Date]
day_of_week [Date]
deactivate [Timer]
deactivate timer deactives a timer.
debug [Unpack_buffer]
debug controls whether invariants are checked at each call.
debug [Bounded_int_table]
set debug := true to turn on debugging, including potentially slow invariant checking.
decimal_of_sexp [Common]
decr [Linux_ext.Priority]
decr [Int_intf.S]
dedup [List]
dedup (de-duplicate).
default [Random.State]
default_sys_behavior [Signal]
default_sys_behavior t Query the default system behavior for a signal.
default_utc_offset_deprecated [Zone]
default_utc_offset returns the UTC offset of default regime for timezone t in seconds.
delay [Thread]
delay d suspends the execution of the calling thread for d seconds.
delete_alarm [Gc]
delete_alarm a will stop the calls to the function associated to a.
dequeue [Thread_safe_queue]
dequeue [Hash_queue.S]
dequeue t returns the front element of the queue.
dequeue [Hash_queue.Make]
dequeue [Fqueue]
Like dequeue_exn, but returns result optionally, without exception.
dequeue [Queue]
dequeue t returns None if t is empty, otherwise it removes and returns the front of t
dequeue_all [Hash_queue.S]
dequeue_all t ~f dequeues every element of the queue and applies f to each one.
dequeue_all [Hash_queue.Make]
dequeue_exn [Hash_queue.S]
dequeue_exn [Hash_queue.Make]
dequeue_exn [Fqueue]
dequeue_exn t removes and returns the front of t, raising Empty if t is empty.
dequeue_exn [Queue]
dequeue_until_empty [Thread_safe_queue]
dequeue_with_key [Hash_queue.S]
dequeue_with_key t returns the front element of the queue and its key
dequeue_with_key [Hash_queue.Make]
dequeue_with_key_exn [Hash_queue.S]
dequeue_with_key_exn [Hash_queue.Make]
descending [Polymorphic_compare]
descending [Comparable.S_common]
descending [Comparable.Make_common]
descending [Comparable.Poly]
descr_of_in_channel [Unix]
Return the descriptor corresponding to an input channel.
descr_of_out_channel [Unix]
Return the descriptor corresponding to an output channel.
detuple2 [Type_equal]
tuple2 and detuple2 convert between equality on a 2-tuple and its components.
diff [Time_internal.T]
diff [Time]
diff t1 t2 returns time t1 minus time t2.
diff [Ofday]
diff t1 t2 returns the difference in time between two ofdays, as if they occurred on the same day
diff [Hash_set_intf.Accessors]
diff [Date]
diff t1 t2 returns date t1 minus date t2 in days.
diff [Core_set_intf.Accessors]
digest [Zone]
digest t return the MD5 digest of the file the t was created from (if any)
dir_sep [Filename]
The directory separator (e.g.
dirfd [Unix]
dirname [Filename]
See Filename.basename.
discard_exn [Fqueue]
Returns version of queue with top element removed.
do_intersect [Flags_intf.S]
does_match [Univ]
does_match t constr returns true iff t was created by create constr v.
does_match [Unix.Cidr]
Is the given address inside the given Cidr.t? Note that the broadcast and network addresses are considered valid so does_match 10.0.0.0/8 10.0.0.0 is true.
domain_of_sockaddr [Unix]
Return the socket domain adequate for the given socket address.
drop [Unix.IOVec]
drop iovec n drops n characters from iovec.
drop [List]
drop_back_exn [Dequeue]
drop_front_exn [Dequeue]
drop_indices_greater_than_exn [Dequeue]
drop_indices_less_than_exn [Dequeue]
drop_prefix [Substring_intf.S]
drop_prefix [Make_substring.F]
drop_prefix [String]
drop_prefix s n drops the longest prefix of s of length less than or equal to n
drop_suffix [Substring_intf.S]
drop_suffix [Make_substring.F]
drop_suffix [String]
drop_suffix s n drops the longest suffix of s of length less than or equal to n
drop_while [List]
drop_while l ~f drops the longest prefix of l for which f is true.
dsync [Unix.Open_flags]
dup [Unix]
Return a new file descriptor referencing the same file as the given descriptor.
dup2 [Unix]
dup2 fd1 fd2 duplicates fd1 to fd2, closing fd2 if already opened.

E
elements [Core_set_intf.Accessors]
empty [Univ_map]
empty [Int_set]
empty [Interval_intf.Gen]
empty [Fqueue]
The empty queue
empty [Flags_intf.S]
empty [Unix.IOVec]
empty the empty I/O-vector.
empty [Unix.Select_fds]
empty [Core_set_intf.S]
empty [Core_set_intf.Creators]
empty [Set.Poly]
empty [Core_map_intf.Creators]
the empty map
empty [Map.Poly]
empty [Array]
empty () creates an empty array
empty [Command.Spec]
the empty command-line spec
empty [Avltree]
end_of_day [Ofday]
endpwent [Unix.Passwd.Low_level]
enqueue [Thread_safe_queue]
enqueue [Hash_queue.S]
enqueue t k v adds the key-value pair (k, v) to the end of the queue, returning `Ok if the pair was added, or `Key_already_present if there is already a (k, v') in the queue.
enqueue [Hash_queue.Make]
enqueue [Fqueue]
enqueue t x returns a queue with adds x to the end of t.
enqueue [Queue]
enqueue t x adds x to the end of t.
enqueue_exn [Hash_queue.S]
enqueue_exn [Hash_queue.Make]
enqueue_top [Fqueue]
enqueue a single element on the *top* of the queue.
env_of_sexp [Unix]
create_process_env ~prog ~args ~env as create process, but takes an additional parameter that extends, or replaces the current environment.
environment [Unix]
Return the process environment, as an array of strings with the format ``variable=value''.
epoch [Time]
eprintf [Std_internal]
eprintf [Printf]
epsilon [Span]
epsilon [Float_robust_compare.S]
epsilon [Float_intf.S]
epsilon_float [Float_intf.S]
epsilon_float [Common]
equal [Tuple.T3]
equal [Tuple.T2]
equal [Stable_unit_test_intf.Unordered_container_arg]
equal [Signal]
equal [Stable_unit_test_intf.Arg]
equal [Polymorphic_compare]
equal [Option]
equal [No_polymorphic_compare]
equal [Nano_mutex]
equal is phys_equal
equal [Mutex0]
equal [Linux_ext.Priority]
equal [Hash_set_intf.Accessors]
equal [Flags_intf.S]
equal [Equal.S3]
equal [Equal.S2]
equal [Equal.S1]
equal [Equal.S]
equal [Doubly_linked.Elt]
equal [Doubly_linked]
predicates
equal [String]
fast equality function on strings, doesn't use compare_val
equal [Core_set_intf.Accessors]
subset t1 t2 returns true iff t1 is a subset of t2.
equal [Mutex]
equal [Core_map_intf.Accessors]
equal cmp m1 m2 tests whether the maps m1 and m2 are equal, that is, contain equal keys and associate them with equal data.
equal [List]
equal [Core_hashtbl_intf.Accessors]
equal [Condition]
equal [Array]
equal [Polymorphic_compare_intf.S]
equal [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
equal [Bag.Elt]
err [Linux_ext.Epoll.Flags]
error [Result]
error [Or_error]
error message value sexp_of_value constructs an Error.t and returns it as a Result.Error.
error [Common]
Or_error.error
error_message [Unix]
Return a string describing the given error code.
error_of_sexp [Unix.Exit_or_signal_or_stop]
error_of_sexp [Unix.Exit_or_signal]
error_of_sexp [Unix.Exit]
error_of_sexp [Unix]
error_string [Or_error]
error_string message is Error (Error.of_string message)
escape [String.Escaping]
escape ~escapeworthy ~escape_char s is
        escape_gen_exn ~escapeworthy_map:(List.zip_exn escapeworthy escapeworthy)
          ~escape_char
      
.
escape [Command.Deprecated.Spec]
escape [Command.Spec]
escape flags may be passed at most once.
escape_gen [String.Escaping]
escape_gen_exn [String.Escaping]
escape_gen_exn escapeworthy_map escape_char returns a function that will escape a string s as follows: if (c1,c2) is in escapeworthy_map, then all occurences of c1 are replaced by escape_char concatenated to c2.
escaped [String]
Warning: Only returns a copy if changes are necessary! Special characters are represented by escape sequences, following the lexical conventions of Objective Caml.
escaped [Char]
Return a string representing the given character, with special characters escaped following the lexical conventions of Objective Caml.
establish_server [Unix]
Establish a server on the given address.
et [Linux_ext.Epoll.Flags]
eval [Blang]
eval t f evaluates the proposition t relative to an environment f that assigns truth values to base propositions.
excl [Unix.Open_flags]
exec [Unix]
exec ~prog ~args ?search_path ?env execs prog with args.
executable_name [Sys]
The name of the file containing the executable currently running.
execution_mode [Sys]
execution_mode tests whether the code being executed was compiled natively or to bytecode.
exists [Hash_queue.Make]
exists [Unix.Resource_usage.Fields]
exists [Core_map_intf.Accessors]
exists [Core_hashtbl_intf.Accessors]
exists [Gc.Control.Fields]
exists [Gc.Stat.Fields]
exists [Container.Generic_phantom]
exists [Container.Generic]
exists [Container.S1_phantom]
exists [Container.S1]
exists [Container.S0_phantom]
exists [Container.S0]
exists [Container.Make]
exists [Bounded_int_table]
exists2_exn [List]
Same as List.exists, but for a two-argument predicate.
existsi [Core_hashtbl_intf.Accessors]
existsi [Bounded_int_table]
exit [Thread]
Terminate prematurely the currently executing thread.
exit_immediately [Unix]
exit_immediately exit_code immediately calls the exit system call with the given exit code without performing any other actions (unlike Pervasives.exit).
exitf [Printf]
print to stderr; exit 1
exn_if_dup [List]
exn_if_dup ?compare ?context t ~to_sexp will run find_a_dup on t, and raise Duplicate_found if a duplicate is found.

F
fail [Result]
failf [Result]
e.g.
failwithf [Printf]
raises Failure
failwithf [Common]
failwiths [Error]
failwiths message value sexp_of_value raises an exception with the supplied message and value, by constructing an Error.t and using Error.raise.
failwiths [Common]
false_ [Blang]
fchmod [Unix]
Change the permissions of an opened file.
fchown [Unix]
Change the owner uid and owner gid of an opened file.
fcntl_getfl [Unix]
fcntl_getfl fd gets the current flags for fd from the open-file-descriptor table via the system call fcntl(fd, F_GETFL).
fcntl_setfl [Unix]
fcntl_setfl fd flags sets the flags for fd in the open-file-descriptor table via the system call fcntl(fd, F_SETFL, flags).
fdatasync [Unix]
Synchronize the kernel buffers of a given file descriptor with disk, but do not necessarily write file attributes.
feed [Unpack_buffer]
feed t buf ?pos ?len adds the specified substring of buf to t's buffer.
feed_string [Unpack_buffer]
fg [Quickcheck]
float generator (no nan, inf, etc.)
file [Command.Spec]
file_descr_realpath [Linux_ext]
file_descr_realpath fd
file_exists [Sys]
file_exists ~follow_symlinks path
file_exists_exn [Sys]
Same as file_exists but blows up on `Unknown
file_kind_of_sexp [Unix]
file_perm_of_sexp [Unix]
The type of file access rights.
file_size [Unix.RLimit]
fill [String]
fill [Array]
Array.fill a ofs len x modifies the array a in place, storing x in elements number ofs to ofs + len - 1.
fill [Bucket.S]
fill [Bucket.Make]
filter [Option]
filter [Hash_set_intf.Accessors]
filter [String]
filter s ~f:predicate discards characters not satisfying predicate
filter [Core_set_intf.Accessors]
if res = partition_tf set ~f then fst res are the elements on which f produced true, and snd res are the elements on which f produces false
filter [Core_map_intf.Accessors]
filter [List]
filter p l returns all the elements of the list l that satisfy the predicate p.
filter [Core_hashtbl_intf.Accessors]
filter [Array]
filter ~f array removes the elements for which f returns false.
filter_inplace [Hash_set_intf.Accessors]
filter_inplace [Doubly_linked]
filter_inplace t ~f removes all elements of t that don't satisfy f.
filter_inplace [Queue]
filter_inplace t ~f removes all elements of t that don't satisfy f.
filter_inplace [Core_hashtbl_intf.Accessors]
filter_map [Core_set_intf.Creators]
filter_map [Queue]
filter_map [Core_map_intf.Accessors]
returns new map with bound values filtered by f applied to the bound values
filter_map [List]
filter_map f l is the sublist of l containing only elements for which f returns Some e.
filter_map [Core_hashtbl_intf.Accessors]
returns new map with bound values filtered by f applied to the bound values
filter_map [Array]
filter_map ~f array maps f over array and filters None out of the results.
filter_map [Bounded_int_table]
filter_mapi [Core_map_intf.Accessors]
like filter_map, but function takes both key and data as arguments
filter_mapi [List]
filter_mapi is just like filter_map, but it also passes in the index of each element as the first argument to the mapped function.
filter_mapi [Core_hashtbl_intf.Accessors]
like filter_map, but function takes both key and data as arguments
filter_mapi [Array]
Same as filter_map but uses Array.mapi.
filter_mapi [Bounded_int_table]
filter_opt [List]
filter_opt l is the sublist of l containing only elements which are Some e.
filter_opt [Array]
filter_opt array returns a new array where None entries are omitted and Some x entries are replaced with x.
filteri [List]
filteri [Core_hashtbl_intf.Accessors]
filteri [Array]
Like filter except f also receives the index.
filteri_inplace [Core_hashtbl_intf.Accessors]
finalise_release [Gc]
A finalisation function may call finalise_release to tell the GC that it can launch the next finalisation function without waiting for the current one to return.
find [Univ_map.Multi]
find [Univ_map.With_fold]
find [Univ_map.With_default]
find [Univ_map]
find [Zone]
find name looks up a t by its name and returns it.
find [Linux_ext.Epoll]
map operations
find [Hash_heap.S]
find [Hash_heap.Make]
find [Hash_queue.Make]
find [Core_map_intf.Accessors]
returns the value bound to the given key, raising Not_found if none such exists
find [List.Assoc]
find [Core_hashtbl_intf.Accessors]
find t k returns Some (the current binding) of k in t, or None if no such binding exists
find [Container.Generic_phantom]
find [Container.Generic]
find [Container.S1_phantom]
find [Container.S1]
find [Container.S0_phantom]
find [Container.S0]
find [Container.Make]
find [Bounded_int_table]
find [Bigstring]
find ?pos ?len char t returns Some i for the smallest i >= pos such that t.{i} = char, or None if there is no such i.
find [Avltree]
if the specified key exists in the tree, return the corresponding value.
find_a_dup [List]
find_a_dup returns a duplicate from the list (no guarantees about which duplicate you get), or None if there are no dups.
find_and_remove [Core_hashtbl_intf.Accessors]
find_and_remove t k returns Some (the current binding) of k in t and removes it, or None is no such binding exists
find_elt [Doubly_linked]
find_elt t ~f finds the first element in t that satisfies f, by testing each of element of t in turn until f succeeds.
find_elt [Bag]
find_elt t ~f looks at elements in the bag one-by-one until it finds one elt such that f (Elt.value elt), in which case it returns Some elt.
find_exn [Univ_map]
find_exn [Zone]
find_exn [Linux_ext.Epoll]
find_exn [Hash_heap.S]
find_exn [Hash_heap.Make]
find_exn [Core_set_intf.Accessors]
find_index t i returns the ith smallest element of t in O(log n) time.
find_exn [Core_map_intf.Accessors]
find_exn [List.Assoc]
find_exn [List]
find_exn t ~f returns the first element of t that satisfies f.
find_exn [Core_hashtbl_intf.Accessors]
find_exn t k returns the current binding of k in t, or raises Not_found if no such binding exists.
find_exn [Array]
find_exn f t returns the first a in t for which f t.(i) is true.
find_exn [Bounded_int_table]
find_heap_el_exn [Heap]
find_heap_el_exn heap el
find_index [Core_set_intf.Accessors]
find_map [Hash_queue.Make]
find_map [Container.Generic_phantom]
find_map [Container.Generic]
find_map [Container.S1_phantom]
find_map [Container.S1]
find_map [Container.S0_phantom]
find_map [Container.S0]
find_map [Container.Make]
find_office [Zone]
find_office office a more type-safe interface for pulling timezones related to existing Jane Street offices/locations.
find_or_add [Core_hashtbl_intf.Accessors]
find_or_add t k ~default returns the data associated with key k if it is in the table t, otherwise it lets d = default() and adds it to the table.
find_or_add [Bounded_int_table]
find_pop [Hash_heap.S]
find_pop [Hash_heap.Make]
find_pop_exn [Hash_heap.S]
find_pop_exn [Hash_heap.Make]
findi [List]
findi [Array]
findi t f returns the first index i of t for which f i t.(i) is true
findi_exn [Array]
findi_exn t f returns the first index i of t for which f i t.(i) is true.
first [Hash_queue.S]
first t returns the front element of the queue, without removing it.
first [Hash_queue.Make]
first [Doubly_linked]
first [Avltree]
first_elt [Doubly_linked]
constant-time extraction of first and last elements.
first_some [Option]
first_strictly_after [Date]
first_strictly_after t ~on:day_of_week returns the first occurrence of day_of_week strictly after t.
flag [Command.Spec]
flag name spec ~doc specifies a command that, among other things, takes a flag named name on its command line.
flags_of_args_exn [Command.Spec]
flags_of_args_exn args creates a spec from Arg.ts, for compatibility with ocaml's base libraries.
flip [Fn]
reverse the order of arguments for a binary function
float [Command.Spec]
float [Random.State]
float [Random]
Random.float bound returns a random floating-point number between 0 (inclusive) and bound (exclusive).
float_blit [Array]
float_of_bits [Int64]
float_of_bits [Int32]
float_of_hh_mm_ss [Time_internal]
float_of_int [Common]
float_of_string [Common]
float_sub [Array]
flock [Unix]
flock fd cmd places or releases a lock on the fd as per the flock C call of the same name.
floor [Common]
floor_pow2 [Int_math]
floor_pow2 [Int]
floor_pow2 x returns the largest power of 2 that is less than or equal to x.
flow_action_of_sexp [Unix.Terminal_io]
flush [Out_channel]
flush_queue_of_sexp [Unix.Terminal_io]
fnmatch [Unix]
fold [Hash_queue.Make]
fold [Dequeue]
fold [Unix.Resource_usage.Fields.Direct]
fold [Unix.Resource_usage.Fields]
fold [Queue]
fold [Core_map_intf.Accessors]
folds over keys and data in map in increasing order of key.
fold [Core_hashtbl_intf.Accessors]
fold [Gc.Control.Fields.Direct]
fold [Gc.Control.Fields]
fold [Gc.Stat.Fields.Direct]
fold [Gc.Stat.Fields]
fold [Container.Generic_phantom]
fold [Container.Generic]
fold [Container.S1_phantom]
fold [Container.S1]
fold [Container.S0_phantom]
fold [Container.S0]
fold [Container.T]
fold [Container.Make]
fold [Bounded_int_table]
fold [Avltree]
fold over the tree
fold2_exn [List]
List.fold2_exn f a [b1; ...; bn] [c1; ...; cn] is f (... (f (f a b1 c1) b2 c2) ...) bn cn.
fold2_exn [Array]
fold_count [Container]
fold_dir [Sys]
fold_elt [Doubly_linked]
fold_elt t ~init ~f is the same as fold, except f is called with the 'a Elt.t's from the list instead of the contained 'a values.
fold_elt [Bag]
fold_elt t ~init ~f is the same as fold, except f is called with the 'a Elt.t's from the bag instead of the contained 'a values.
fold_left [List]
fold_lines [In_channel]
fold_lines ?fix_win_eol t ~init ~f folds over the lines read from t using input_line.
fold_range_inclusive [Core_map_intf.Accessors]
fold_range_inclusive t ~min ~max ~init ~f folds f (with initial value ~init) over all keys (and their associated values) that are in the range min, max (inclusive).
fold_ready [Linux_ext.Epoll]
fold_right [Doubly_linked]
fold_right [Core_set_intf.Accessors]
fold_right [Core_map_intf.Accessors]
folds over keys and data in map in decreasing order of key.
fold_right [List]
List.fold_right f [a1; ...; an] b is f a1 (f a2 (... (f an b) ...)).
fold_right [Array]
Array.fold_right f a ~init computes f a.(0) (f a.(1) ( ... (f a.(n-1) init) ...)), where n is the length of the array a.
fold_until [Core_set_intf.Accessors]
foldi [Hash_queue.S]
foldi [Hash_queue.Make]
foldi [Dequeue]
foldi [String]
foldi works similarly to fold, but also pass in index of each character to f
foldi [List]
foldi is just like fold, but it also passes in the index of each element as the first argument to the folded function.
foldi [Array]
following_weekday [Date]
for_all [Hash_queue.Make]
for_all [Unix.Resource_usage.Fields]
for_all [Core_map_intf.Accessors]
same semantics as similar functions in List
for_all [Gc.Control.Fields]
for_all [Gc.Stat.Fields]
for_all [Container.Generic_phantom]
for_all [Container.Generic]
for_all [Container.S1_phantom]
for_all [Container.S1]
for_all [Container.S0_phantom]
for_all [Container.S0]
for_all [Container.Make]
for_all [Bounded_int_table]
for_all2_exn [List]
Same as List.for_all, but for a two-argument predicate.
for_all2_exn [Array]
for_all2 t1 t2 ~f fails if length t1 <> length t2.
for_alli [Bounded_int_table]
for_this_process [User_and_group]
Get the t for the current process.
for_this_process_exn [User_and_group]
force [Only_in_test]
force [Force_once]
force t runs the thunk if it hadn't already been forced, else it raises an exception.
force [Lazy]
force x forces the suspension x and returns its result.
force [Common]
force_val [Lazy]
Like force except that if the computation of x raises an exception, it is unspecified whether force_val x raises the same exception or Undefined.
forever [Fn]
forever f runs f () until it throws an exception and returns the exception.
fork [Unix]
fork () forks a new process.
fork_exec [Unix]
fork_exec ~prog ~args ?use_path ?env () forks and execs prog with args in the child process, returning the child pid to the parent.
format [Time]
format t fmt formats the given time according to fmt, which follows the formatting rules given in 'man strftime'.
format [Time.Date]
formatter_of_buffer [Bigbuffer.Format]
fpe [Signal]
Dump_core Arithmetic exception
fprintf [Std_internal]
fprintf [Printf]
fractional [Float_intf.S.Parts]
fragments [Gc.Stat.Fields]
fragments [Gc.Stat]
free_blocks [Gc.Stat.Fields]
free_blocks [Gc.Stat]
free_words [Gc.Stat.Fields]
free_words [Gc.Stat]
frexp [Float_intf.S]
frexp [Common]
fri [Weekday]
front_index [Dequeue]
fst3 [Common]
triple handling
fstat [Unix.Native_file]
Return the information for the file associated with the given descriptor.
fstat [Unix]
Return the information for the file associated with the given descriptor.
fsync [Unix]
ftruncate [Unix.Native_file]
ftruncate [Unix]
Truncates the file corresponding to the given descriptor to the given size.
full_init [Random]
Same as Random.init but takes more data as seed.
full_major [Gc]
Do a minor collection, finish the current major collection cycle, and perform a complete new cycle.

G
gather_conjuncts [Blang]
gather_conjuncts t gathers up all toplevel conjuncts in t.
gather_disjuncts [Blang]
gather_disjuncts t gathers up all toplevel disjuncts in t.
general [Memo]
Returns memoized version of any function with a single argument.
get [Weekday]
get [Union_find]
get t returns the value of the class of t.
get [Set_once]
get [Piecewise_linear_intf.S]
get [Linux_ext.Timerfd]
get t returns the current state of the timer t.
get [Linux_ext.Clock]
get [Weak]
get [Unix.Resource_usage]
get [Unix.RLimit]
get [String]
get [Gc]
Return the current values of the GC parameters in a control record.
get [Array]
Array.get a n returns the element number n of array a.
get [Bigstring]
get t pos returns the character at pos
get [Backtrace]
get1 [Tuple.T3]
get1 [Tuple.T2]
get2 [Tuple.T3]
get2 [Tuple.T2]
get3 [Tuple.T3]
get_back [Dequeue]
get_back_exn [Dequeue]
get_backtrace [Printexc]
get_cmp [Heap]
get_cmp heap
get_digit [Char]
Return Some i if is_digit c and None otherwise.
get_digit_exn [Char]
Return i if is_digit c.
get_event_interval [Timer]
get_event_interval event
get_event_time [Timer]
get_event_time event
get_exn [Set_once]
get_exn [Dequeue]
get_flag_names [Command.Deprecated]
get_front [Dequeue]
get_front_exn [Dequeue]
get_hostname_and_pid [Lock_file.Nfs]
get_hostname_and_pid path reads the lock file at path and returns the hostname and path in the file if it can be parsed.
get_inverse [Piecewise_linear_intf.S_invertible]
get_inverse t value is the inverse operation of get t key.
get_ipv4_address_for_interface [Linux_ext]
get_mcast_loop [Unix]
get_mcast_loop sock reads the boolean argument that determines whether sent multicast packets are looped back to local sockets.
get_mcast_ttl [Unix]
get_mcast_ttl sock reads the time-to-live value of outgoing multicast packets for socket sock.
get_opt_len [Bigstring]
get_opt_len bstr ~pos opt_len
get_pos_len [Ordered_collection_common]
get_pos_len_exn [Ordered_collection_common]
get_pos_len and get_pos_len_exn are intended to be used by functions * that take a sequence (array, string, bigstring, ...) and an optional pos * and len specifying a subrange of the sequence.
get_process_clock [Linux_ext.Clock]
get_process_clock the clock measuring the CPU-time of a process.
get_resolution [Linux_ext.Clock]
get_sockaddr [Unix]
Get a sockaddr from a hostname or IP, and a port
get_state [Random]
OCaml's Random.get_state makes a copy of the default state, which is almost certainly not what you want.
get_terminal_size [Linux_ext]
get_terminal_size ()
get_thread_clock [Linux_ext.Clock]
get_thread_clock the clock measuring the CPU-time of the current thread.
get_time [Linux_ext.Clock]
get_timer [Timer]
get_timer event
getaddrinfo [Unix]
getaddrinfo host service opts returns a list of Unix.addr_info records describing socket parameters and addresses suitable for communicating with the given host and service.
getaddrinfo_option_of_sexp [Unix]
Options to Unix.getaddrinfo.
getbyaddr [Unix.Host]
Find an entry in hosts with the given address.
getbyaddr_exn [Unix.Host]
getbygid [Unix.Group]
getbygid_exn [Unix.Group]
getbyname [Unix.Service]
Find an entry in services with the given name.
getbyname [Unix.Protocol]
Find an entry in protocols with the given name.
getbyname [Unix.Host]
Find an entry in hosts with the given name.
getbyname [Unix.Group]
getbyname [Unix.Passwd]
getbyname_exn [Unix.Service]
getbyname_exn [Unix.Protocol]
getbyname_exn [Unix.Host]
getbyname_exn [Unix.Group]
getbyname_exn [Unix.Passwd]
getbynumber [Unix.Protocol]
Find an entry in protocols with the given protocol number.
getbynumber_exn [Unix.Protocol]
getbyport [Unix.Service]
Find an entry in services with the given service number.
getbyport_exn [Unix.Service]
getbyuid [Unix.Passwd]
getbyuid_exn [Unix.Passwd]
getcwd [Unix]
Return the name of the current working directory.
getcwd [Sys]
Return the current working directory of the process.
getegid [Unix]
Return the effective group id under which the process runs.
getenv [Sys]
Return the value associated to a variable in the process environment.
getenv_exn [Sys]
geteuid [Unix]
Return the effective user id under which the process runs.
getgid [Unix]
Return the group id of the user executing the process.
getgrouplist [Unix]
getgrouplist user group returns the list of groups to which user belongs.
getgroups [Unix]
Return the list of groups to which the user executing the process belongs.
gethostname [Unix]
Return the name of the local host.
getitimer [Unix]
Return the current status of the given interval timer.
getlogin [Unix]
Return the login name of the user executing the process.
getnameinfo [Unix]
getnameinfo addr opts returns the host name and service name corresponding to the socket address addr.
getnameinfo_option_of_sexp [Unix]
Options to Unix.getnameinfo.
getpeername [Unix]
Return the address of the host connected to the given socket.
getpid [Unix]
Return the pid of the process.
getppid [Unix]
Return the pid of the parent process.
getppid_exn [Unix]
Return the pid of the parent process, if you're really sure you're never going to be the init process.
getpriority [Linux_ext]
Get the calling thread's priority in the linux scheduler
getpwent [Unix.Passwd.Low_level]
getpwent_exn [Unix.Passwd.Low_level]
getpwents [Unix.Passwd]
getpwents is a thread-safe wrapper over the low-level passwd database functions.
getsockname [Unix]
Return the address of the given socket.
getsockopt [Unix]
getsockopt_float [Unix]
Same as UnixLabels.getsockopt for a socket option whose value is a floating-point number.
getsockopt_int [Unix]
Same as UnixLabels.getsockopt for an integer-valued socket option.
getsockopt_optint [Unix]
Same as UnixLabels.getsockopt for a socket option whose value is an int option.
gettcpopt_bool [Linux_ext]
gettcpopt_bool sock opt
gettid [Linux_ext]
gettimeofday [Unix]
Same as Unix.time above, but with resolution better than 1 second.
getuid [Unix]
Return the user id of the user executing the process.
gigabytes [Byte_units]
gmtime [Unix]
Convert a time in seconds, as returned by UnixLabels.time, into a date and a time.
group [User_and_group]
group [List]
group l ~break returns a list of lists (i.e., groups) whose concatenation is equal to the original list.
group [Core_hashtbl_intf.Creators]
group [Command]
group ~summary subcommand_alist is a compound command with named subcommands, as found in subcommand_alist.
group_by [Core_set_intf.Accessors]
if equiv is an equivalence predicate, then group_by set ~equiv produces a list of equivalence classes (i.e., a set-theoretic quotient).
groupi [List]
This is just like group, except that you get the index in the original list of the current element along with the two elements.

H
half_open_intervals_are_a_partition [Interval_intf.Gen]
handle [Signal]
handle t f is set t (`Handle f).
handle_default [Signal]
handle_default t is set t `Default.
handle_uncaught [Exn]
handle_uncaught ~exit f catches an exception escaping f and prints an error message to stderr.
handle_uncaught_and_exit [Exn]
behaves as handle_uncaught ~exit:true and also has a more precise type in this case
handle_unix_error [Unix]
handle_unix_error f runs f () and returns the result.
hash [Univ.Constr]
hash [Type_equal.Id]
accessors
hash [Hashable.S_binable]
hash [Hashable.S]
hash [String]
slightly faster hash function on strings
hash [Core_hashtbl_intf.Key]
Values returned by hash must be non-negative.
hash [Core_hashtbl_intf.Hashable]
hash [Hashtbl]
hash_param [Core_hashtbl_intf.Hashable]
hash_param [Hashtbl]
hashable [Hashable.S_binable]
hashable [Hashable.S]
hashable [Hashable.Make_binable]
hashable [Hashable.Make]
hashable [Core_hashtbl_intf.S]
hashable [Hashtbl.Poly]
have_address_in_common [Unix.Host]
hd [List]
hd_exn [List]
Return the first element of the given list.
heap_chunks [Gc.Stat.Fields]
heap_chunks [Gc.Stat]
heap_el_get_el [Heap]
heap_el_get_el heap_el
heap_el_get_heap_exn [Heap]
heap_el_get_heap_exn heap_el
heap_el_is_valid [Heap]
heap_el_is_valid heap_el
heap_el_mem [Heap]
heap_el_mem heap heap_el
heap_words [Gc.Stat.Fields]
heap_words [Gc.Stat]
help [Command.Spec]
the help text for the command
help_recursive [Command.Deprecated]
host [Host_and_port]
hour [Span]
hup [Signal]
Terminate Hangup on controlling terminal
hup [Linux_ext.Epoll.Flags]

I
id [Fn]
The identity function
id [Thread]
Return the identifier of the given thread.
ident [Common]
idrss [Unix.Resource_usage.Fields]
idrss [Unix.Resource_usage]
if_ [Blang]
if_indextoname [Unix]
ifprintf [Printf]
ignore [Signal]
ignore t is set t `Ignore.
ignore [Monad.S2]
ignore [Monad.Make2]
ignore [Monad.Make]
ignore [Monad.S]
ignore t = map t ~f:(fun _ -> ()).
ignore [Force_once]
ignore () = create (fun () -> ())
ignore [Fn]
* ignore is the same as Pervasives.ignore.
ill [Signal]
Dump_core Invalid hardware instruction
immutable_of_sexp [Common]
in_ [Linux_ext.Epoll.Flags]
in_channel_length [Common]
in_channel_of_descr [Unix]
Create an input channel reading from the given descriptor.
in_channel_realpath [Linux_ext]
in_channel_realpath ic
inblock [Unix.Resource_usage.Fields]
inblock [Unix.Resource_usage]
incr [Linux_ext.Priority]
incr [Int_intf.S]
incr [Core_hashtbl_intf.Accessors]
index [String.Escaping]
index s ~escape_char char find the first literal (not escaped) instance of char in s starting from 0.
index [String]
index_exn [String.Escaping]
index_exn [String]
index_from [String.Escaping]
index_from s ~escape_char pos char find the first literal (not escaped) instance of char in s starting from pos and proceeding towards the end of s.
index_from [String]
index_from_exn [String.Escaping]
index_from_exn [String]
inet4_addr_of_int32 [Unix.Inet_addr]
Some things (like the kernel) report addresses as hex or decimal strings.
inet4_addr_to_int32_exn [Unix.Inet_addr]
inet4_addr_to_int32_exn t = 0l when t = Inet_addr.of_string ("0.0.0.0").
infinity [Float_intf.S]
infinity [Common]
init [Zone]
init () pre-load all available time zones from disk, this function has no effect if it is called multiple times.
init [Pid]
init [String]
init [List]
init f n is [(f 0); (f 1); ...; (f (n-1))].
init [Array]
init n ~f creates an array of length n where the ith element is initialized with f i (starting at zero)
init [Bigstring]
init n ~f creates a bigstring t of length n, with t.{i} = f i
init [Random]
Initialize the generator, using the argument as a seed.
initgroups [Unix]
initialized_zones [Zone]
initialized_zones () returns a sorted list of time zone names that have been loaded from disk thus far.
input [In_channel]
input [Bigstring]
input ?min_len ic ?pos ?len bstr tries to read len bytes (guarantees to read at least min_len bytes (must be greater than or equal to zero and smaller or equal to len), if possible, before returning) from input channel ic, and writes them to bigstring bstr starting at position pos.
input_all [In_channel]
input_binary_int [In_channel]
input_byte [In_channel]
input_char [In_channel]
input_line [In_channel]
input_line ?fix_win_eol t reads a line from t and returns it, without the newline ("\n") character at the end, and, if fix_win_eol the trailing "\r\n" is dropped.
input_lines [In_channel]
Completely reads an input channel and returns the results as a list of strings.
insert_after [Doubly_linked]
insert_before [Doubly_linked]
constant-time insertion of a new element.
insert_delimiter [Int_conversions]
insert_first [Doubly_linked]
insert_last [Doubly_linked]
insert_underscores [Int_conversions]
int [Signal]
Terminate Interactive interrupt (ctrl-C)
int [Command.Spec]
int [Random.State]
int [Random]
Random.int bound returns a random integer between 0 (inclusive) and bound (exclusive).
int32 [Random.State]
int32 [Random]
Random.int32 bound returns a random integer between 0 (inclusive) and bound (exclusive).
int32_to_int [Int_conversions]
int32_to_int64 [Int_conversions]
int32_to_int_exn [Int_conversions]
int32_to_nativeint [Int_conversions]
int64 [Random.State]
int64 [Random]
Random.int64 bound returns a random integer between 0 (inclusive) and bound (exclusive).
int64_to_int [Int_conversions]
int64_to_int32 [Int_conversions]
int64_to_int32_exn [Int_conversions]
int64_to_int_exn [Int_conversions]
int64_to_nativeint [Int_conversions]
int64_to_nativeint_exn [Int_conversions]
int_blit [Array]
int_of_float [Common]
int_sub [Array]
int_to_int32 [Int_conversions]
int_to_int32_exn [Int_conversions]
int_to_int64 [Int_conversions]
int_to_nativeint [Int_conversions]
integral [Float_intf.S.Parts]
inter [Core_set_intf.Accessors]
interactive [Sys]
This reference is initially set to false in standalone programs and to true if the code is being executed under the interactive toplevel system ocaml.
interruptible_pause [Time]
interruptible_pause span sleeps for span time unless interrupted (e.g.
intersect [Interval_intf.Gen]
intersect [Flags_intf.S]
intersperse [List]
intersperse xs ~sep places sep between adjacent elements of xs.
interval_timer_of_sexp [Unix]
The three kinds of interval timers.
interval_timer_status_of_sexp [Unix]
The type describing the status of an interval timer
invalid_argf [Printf]
raises Invalid_arg
invalid_argf [Common]
invariant [Weekday]
invariant [Unpack_buffer]
invariant [Nano_mutex]
invariant [Linux_ext.Epoll]
invariant [Invariant.S3]
invariant [Invariant.S2]
invariant [Invariant.S1]
invariant [Invariant.S]
invariant [Hash_queue.S]
invariant t checks the invariants of the queue.
invariant [Hash_queue.Make]
invariant [Doubly_linked]
invariant [Dequeue]
invariant [Stack]
invariant [Core_hashtbl_intf.Accessors]
invariant [Bounded_int_table]
invariant [Blang]
invariant [Bag]
invariant [Avltree]
check invariants, raise an exception if any invariants fail
invariants [Core_set_intf.Accessors]
Test if invariants of internal AVL search tree hold.
invariants [Core_map_intf.Accessors]
Test if invariants of internal AVL search tree hold.
inverse [List.Assoc]
iround [Float_intf.S]
iround_down [Float_intf.S]
iround_down_exn [Float_intf.S]
iround_exn [Float_intf.S]
iround_nearest [Float_intf.S]
iround_nearest_exn [Float_intf.S]
iround_towards_zero [Float_intf.S]
iround_towards_zero_exn [Float_intf.S]
iround_up [Float_intf.S]
iround_up_exn [Float_intf.S]
is_absolute [Filename]
is_activated [Timer]
is_activated timer
is_alpha [Char]
'a' - 'z' or 'A' - 'Z'
is_alphanum [Char]
'a' - 'z' or 'A' - 'Z' or '0' - '9'
is_business_day [Date]
is_char_escaped [String.Escaping]
is_char_escaped s ~escape_char pos return true if the char at pos is escaped, false otherwise.
is_char_escaping [String.Escaping]
Any char in an escaped string is either escaping, escaped or literal.
is_char_literal [String.Escaping]
is_literal s ~escape_char pos return true if the char at pos is not escaped or escaping.
is_digit [Char]
'0' - '9'
is_directory [Sys]
Returns `Yes if the file exists and is a directory
is_directory_exn [Sys]
is_empty [Unpack_buffer]
is_empty t returns true if t has no unconsumed bytes, and false if it does.
is_empty [Univ_map]
is_empty [Interval_intf.Gen]
is_empty [Heap]
is_empty heap
is_empty [Hash_queue.Make]
is_empty [Fqueue]
is_empty [Dequeue]
is_empty [String]
is_empty s returns true iff s is empty (i.e.
is_empty [Core_map_intf.Accessors]
Test whether a map is empty or not.
is_empty [Core_hashtbl_intf.Accessors]
is_empty [Container.Generic_phantom]
is_empty [Container.Generic]
is_empty [Container.S1_phantom]
is_empty [Container.S1]
is_empty [Container.S0_phantom]
is_empty [Container.S0]
is_empty [Container.Make]
is_empty_or_singleton [Interval_intf.Gen]
is_error [Result]
is_file [Sys]
Returns `Yes if the file exists and is a regular file
is_file_exn [Sys]
is_finite [Float_intf.S]
is_first [Doubly_linked]
is_implicit [Filename]
Return true if the file name is relative and does not start with an explicit reference to the current directory (./ or ../ in Unix), false if it starts with an explicit reference to the root directory or the current directory.
is_inf [Float_intf.S]
includes positive and negative Float.infinity
is_last [Doubly_linked]
is_locked [Lock_file]
is_locked path returns true when the file at path exists and is locked, false otherwise.
is_lowercase [Char]
'a' - 'z'
is_mmapped [Bigstring]
is_mmapped bstr
is_nan [Float_intf.S]
is_none [Option]
is_none t returns true iff t = None.
is_none [Common]
is_ok [Result]
is_posix_pathname_component [Filename]
is_posix_pathname_component f
is_prefix [String]
is_prefix s ~prefix returns true if s starts with prefix.
is_print [Char]
' ' - '~'
is_relative [Filename]
Return true if the file name is relative to the current directory, false if it is absolute (i.e.
is_some [Option]
is_some t returns true iff t = Some x.
is_some [Common]
is_sorted [List]
is_sorted [Array]
is_subset [Interval_intf.Gen]
is_suffix [String]
is_suffix s ~suffix returns true if s ends with suffix.
is_sun_or_sat [Weekday]
is_sun_or_sat returns true if t is Sunday or Saturday
is_superset [Interval_intf.Gen]
is_superset i1 of_:i2 is whether i1 contains i2.
is_uppercase [Char]
'A' - 'Z'
is_weekday [Date]
is_weekend [Date]
is_whitespace [Char]
' ' or '\t' or '\r' or '\n'
isatty [Unix]
Return true if the given file descriptor refers to a terminal or console window, false otherwise.
isrss [Unix.Resource_usage.Fields]
isrss [Unix.Resource_usage]
iter [Result]
iter [Linux_ext.Epoll]
iter [Heap]
iter [Hash_heap.S]
iter [Hash_heap.Make]
iter [Hash_queue.Make]
iter [Dequeue]
iter [Unix.Resource_usage.Fields.Direct]
iter [Unix.Resource_usage.Fields]
iter [Core_map_intf.Accessors]
iterator for map
iter [Core_hashtbl_intf.Accessors]
iter [Gc.Control.Fields.Direct]
iter [Gc.Control.Fields]
iter [Gc.Stat.Fields.Direct]
iter [Gc.Stat.Fields]
iter [Container.Generic_phantom]
iter [Container.Generic]
iter [Container.S1_phantom]
iter [Container.S1]
iter [Container.S0_phantom]
iter [Container.S0]
iter [Container.Make]
iter [Bounded_int_table]
iter [Avltree]
iterate over the tree
iter2 [Core_set_intf.Accessors]
iter2 [Core_map_intf.Accessors]
Iterate two maps side by side.
iter2_exn [List]
List.iter2_exn f [a1; ...; an] [b1; ...; bn] calls in turn f a1 b1; ...; f an bn.
iter2_exn [Array]
iter_el [Heap]
iter heap ~f iterate over heap with function f.
iter_elt [Doubly_linked]
iter_elt [Bag]
iter_error [Result]
iter_lines [In_channel]
iter_lines ?fix_win_eol t ~f applies f to each line read from t using input_line.
iter_ready [Linux_ext.Epoll]
iter_ready and fold_ready iterate over the ready set computed by the last call to wait.
iter_vals [Hash_heap.S]
iter_vals [Hash_heap.Make]
iter_vals [Core_hashtbl_intf.Accessors]
iter_vals t ~f is like iter, except it only supplies the value to f, not the key.
iter_vals [Bounded_int_table]
iteri [Hash_queue.S]
iter t ~f applies f to each key and element of the queue.
iteri [Hash_queue.Make]
iteri [Dequeue]
iteri [List]
iteri is just like iter, but it also passes in the index of each element as the first argument to the iter'd function.
iteri [Array]
Same as Array.iter, but the function is applied to the index of the element as first argument, and the element itself as second argument.
ixrss [Unix.Resource_usage.Fields]
ixrss [Unix.Resource_usage]

J
join [Monad.S2]
join [Monad.Make2]
join [Monad.Make]
join [Monad.S]
join t is t >>= (fun t' -> t').
join [Thread]
join th suspends the execution of the calling thread until the thread th has terminated.

K
kbprintf [Printf]
keys [Hash_queue.S]
keys t returns the keys in the order of the queue.
keys [Hash_queue.Make]
keys [Core_map_intf.Accessors]
returns list of keys in map
keys [Core_hashtbl_intf.Accessors]
Returns the list of all keys for given hashtable.
keys [Bounded_int_table]
Standard hashtbl functions.
kfprintf [Printf]
kill [Signal]
Terminate Termination (cannot be ignored)
kilobytes [Byte_units]
known [Flags_intf.Make_arg]
An entry flag, name in known means that the bit(s) in flag is (are) called name; i.e.
ksprintf [Std_internal]
ksprintf [Printf]

L
largest_free [Gc.Stat.Fields]
largest_free [Gc.Stat]
last [Doubly_linked]
last [List]
The final element of a list.
last [Array]
last [Avltree]
last_elt [Doubly_linked]
last_exn [List]
laws [Quickcheck]
laws iter gen func applies func repeatedly (iter times) on output of gen, and if func ever returns false, then the input that caused the failure is returned optionally.
laws_exn [Quickcheck]
Like laws, but throws an exception instead of returning an option.
lazy_from_fun [Lazy]
lazy_from_fun f is the same as lazy (f ()) but slightly more efficient.
lazy_from_val [Lazy]
lazy_from_val v returns an already-forced suspension of v This is for special purposes only and should not be confused with lazy (v).
lazy_is_val [Lazy]
lazy_is_val x returns true if x has already been forced and did not raise an exception.
lbound [Interval_intf.Gen_set]
lbound [Interval_intf.Gen]
lbound_exn [Interval_intf.Gen_set]
lbound_exn [Interval_intf.Gen]
ldexp [Float_intf.S]
ldexp [Common]
length [Thread_safe_queue]
length [Squeue]
returns the number of elements in the queue.
length [Out_channel]
length [Substring_intf.S]
length [Make_substring.Base]
length [Make_substring.F]
length [In_channel]
length [Heap]
length heap
length [Hash_heap.S]
length [Hash_heap.Make]
length [Hash_queue.Make]
length [Fqueue]
complexity: O(1)
length [Dequeue]
length [Weak]
length [String]
length [Core_map_intf.Accessors]
length map
length [Core_hashtbl_intf.Accessors]
length [Container.Generic_phantom]
length [Container.Generic]
length [Container.S1_phantom]
length [Container.S1]
length [Container.S0_phantom]
length [Container.S0]
length [Container.Make]
length [Bounded_int_table]
length [Bigstring]
length bstr
length [Bigbuffer]
Return the number of characters currently contained in the buffer.
level [Bucket.S]
level [Bucket.Make]
lexicographic [Comparable]
lfindi [String]
lfindi ?pos t ~f returns the smallest i >= pos such that f i t.[i], if there is such an i.
lg [Quickcheck]
list generator
lift [Type_equal.Lift2]
lift [Type_equal.Lift]
likely_machine_zones [Zone]
likely_machine_zones is a list of zone names that will be searched first when trying to determine the machine zone of a box.
limit_of_sexp [Unix.RLimit]
link [Unix]
link ?force ~target ~link_name () creates a hard link named link_name to the file named target.
list_intersect [Interval_intf.Gen]
Assuming that ilist1 and ilist2 are lists of (disjoint) intervals, list_intersect ilist1 ilist2 returns the list of disjoint intervals that correspond to the intersection of ilist1 with ilist2.
listed [Command.Spec]
listed flags may be passed zero or more times
listen [Unix]
Set up a socket for receiving connection requests.
live_blocks [Gc.Stat.Fields]
live_blocks [Gc.Stat]
live_words [Gc.Stat.Fields]
live_words [Gc.Stat]
localhost [Unix.Inet_addr]
Special addresses representing the host machine.
localhost_inet6 [Unix.Inet_addr]
localtime [Unix]
Convert a time in seconds, as returned by UnixLabels.time, into a date and a time.
lock [Nano_mutex]
lock t locks the mutex t, blocking until it can be locked.
lock [Mutex]
lock mtx locks mtx, possibly waiting for it to be released first by another thread.
lock_command_of_sexp [Unix]
Commands for Unix.lockf.
lock_exclusive [Unix.Flock_command]
lock_exn [Nano_mutex]
lock_shared [Unix.Flock_command]
lockf [Unix]
lookup [Hash_queue.S]
lookup t k returns the value of the key-value pair in the queue with key k, if there is one.
lookup [Hash_queue.Make]
lookup_exn [Hash_queue.S]
lookup_exn [Hash_queue.Make]
lowercase [String]
lowercase [Char]
Convert the given character to its equivalent lowercase character.
lpop [Squeue]
returns the element popped and the length of the queue after * this element was popped.
ls_dir [Sys]
Same as readdir, but return a list rather than an array.
lseek [Unix.Native_file]
lseek [Unix]
lsplit2 [String.Escaping]
lsplit2 [String]
lsplit2 line ~on optionally returns line split into two strings around the * first appearance of on from the left
lsplit2_exn [String.Escaping]
lsplit2_exn [String]
If the string s contains the character on, then lsplit2_exn s ~on returns a pair containing s split around the first appearance of on (from the left).
lstat [Unix.Native_file]
Same as UnixLabels.stat, but in case the file is a symbolic link, return the information for the link itself.
lstat [Unix]
Same as UnixLabels.stat, but in case the file is a symbolic link, return the information for the link itself.
lstrip [String]
lstrip ?drop s returns a string with consecutive chars satisfying drop (by default white space, e.g.

M
machine [Unix.Utsname]
machine_zone [Zone]
machine_zone ?refresh () returns the machines zone (t).
majflt [Unix.Resource_usage.Fields]
majflt [Unix.Resource_usage]
major [Gc]
Do a minor collection and finish the current major collection cycle.
major_collections [Gc.Stat.Fields]
major_collections [Gc.Stat]
major_heap_increment [Gc.Control.Fields]
major_heap_increment [Gc.Control]
major_slice [Gc]
Do a minor collection and a slice of major collection.
major_words [Gc.Stat.Fields]
major_words [Gc.Stat]
make [String]
make [Random.State]
Create a new state and initialize it with the given seed.
make_creator [Unix.Resource_usage.Fields]
make_creator [Gc.Control.Fields]
make_creator [Gc.Stat.Fields]
make_matrix [Array]
Array.make_matrix dimx dimy e returns a two-dimensional array (an array of arrays) with first dimension dimx and second dimension dimy.
make_self_init [Random.State]
Create a new state and initialize it with a system-dependent low-entropy seed.
map [Unpack_buffer.Unpack_one]
map [Result]
map [Monad.S2]
map [Monad.Make2]
map [Monad.Make]
map [Interval_intf.Gen]
map t ~f returns create (f l) (f u) if bounds t = Some (l, u), and empty if t is empty.
map [Monad.S]
map t ~f is t >>| f.
map [Unix.Resource_usage.Fields]
map [String]
map f s applies f to each character in s, and returns the resulting string.
map [Core_set_intf.Creators]
map [Queue]
map [Core_map_intf.Accessors]
returns new map with bound values replaced by f applied to the bound values
map [List.Assoc]
map [List]
List.map f [a1; ...; an] applies function f to a1, ..., an, and builds the list [f a1; ...; f an] with the results returned by f.
map [Core_hashtbl_intf.Accessors]
map t f returns new table with bound values replaced by f applied to the bound values
map [Gc.Control.Fields]
map [Gc.Stat.Fields]
map [Array]
Array.map ~f a applies function f to all the elements of a, and builds an array with the results returned by f: [| f a.(0); f a.(1); ...; f a.(Array.length a - 1) |].
map [Command.Spec]
parameter transformation
map [Bounded_int_table]
map1 [Tuple.T3]
map1 [Tuple.T2]
map2 [Tuple.T3]
map2 [Tuple.T2]
map2 [Option]
map2 o f map 'a option and 'b option to a 'c option using ~f
map2_exn [List]
List.map2_exn f [a1; ...; an] [b1; ...; bn] is [f a1 b1; ...; f an bn].
map2_exn [Array]
map3 [Tuple.T3]
map3_exn [List]
map_error [Result]
map_file [Bigstring]
map_file shared fd n memory-maps n characters of the data associated with descriptor fd to a bigstring.
map_poly [Unix.Resource_usage.Fields]
map_poly [Gc.Control.Fields]
map_poly [Gc.Stat.Fields]
mapi [String]
mapi f s applies f to each character in s and its index, and returns the resulting string.
mapi [Core_map_intf.Accessors]
like map, but function takes both key and data as arguments
mapi [List]
mapi is just like map, but it also passes in the index of each element as the first argument to the mapped function.
mapi [Core_hashtbl_intf.Accessors]
like map, but function takes both key and data as arguments
mapi [Array]
Same as Array.map, but the function is applied to the index of the element as first argument, and the element itself as second argument.
mapi [Bounded_int_table]
marshal [Bigstring_marshal]
marshal ?flags v marshals value v to a bigstring using marshalling flags flags.
marshal_blit [Bigstring_marshal]
marshal_blit ?flags v ?pos ?len buf marshals value v to bigstring buf starting at position pos and at most len bytes.
marshal_data_size [Bigstring_marshal]
marshal_data_size ?pos buf
marshal_to_fd [Bigstring_marshal]
marshal_to_fd ?buf fd v marshals data v to file descriptor fd using marshalling buffer buf, and marshalling flags flags.
marshal_to_sock_no_sigpipe [Bigstring_marshal]
marshal_to_sock_no_sigpipe ?buf sock v same as Bigstring_marshal.marshal_to_fd, but writes to sockets only and uses Bigstring.really_send_no_sigpipe to avoid SIGPIPE on sockets.
match_ [Univ]
match_ t constr returns Some v if t was created by create constr v, and returns None otherwise.
match_exn [Univ]
max [Polymorphic_compare]
max [No_polymorphic_compare]
max [Int_set]
max t the biggest number in the set (if it exists)
max [Polymorphic_compare_intf.S]
max [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
max_elt [Core_set_intf.Accessors]
max_elt [Core_map_intf.Accessors]
max_elt map
max_elt_exn [Core_set_intf.Accessors]
max_elt_exn [Core_map_intf.Accessors]
max_finite_value [Float_intf.S]
max_float [Common]
max_inan [Float_intf.S]
max_int [Common]
max_iovecs [Unix.IOVec]
max_length [String]
Maximum length of a string.
max_length [Array]
Maximum length of a normal array.
max_overhead [Gc.Control.Fields]
max_overhead [Gc.Control]
max_value [Int_intf.S]
max_value [Float_intf.S]
max_value [Char]
maxrss [Unix.Resource_usage.Fields]
maxrss [Unix.Resource_usage]
maybe [Command.Spec]
(maybe anons) indicates that some anonymous arguments are optional
maybe_with_default [Command.Spec]
(maybe_with_default default anons) indicates an optional anonymous argument with a default value
mcast_join [Unix]
mcast_join ?ifname sock addr join a multicast group at addr with socket sock, optionally using network interface ifname.
mcast_leave [Unix]
mcast_leave ?ifname sock addr leaves a multicast group at addr with socket sock, optionally using network interface ifname.
megabytes [Byte_units]
mem [Univ_map]
mem [Int_set]
mem t i test whether i is a member of the set
mem [Heap]
mem heap el
mem [Hash_set_intf.Accessors]
mem [Hash_heap.S]
mem [Hash_queue.S]
mem q k returns true iff there is some (k, v) in the queue.
mem [Hash_heap.Make]
mem [Hash_queue.Make]
mem [Core_set_intf.Accessors]
mem [Core_map_intf.Accessors]
mem map key tests whether map contains a binding for key
mem [List.Assoc]
mem [Core_hashtbl_intf.Accessors]
mem [Container.Generic_phantom]
mem [Container.Generic]
mem [Container.S1_phantom]
mem [Container.S1]
mem [Container.S0_phantom]
mem [Container.S0]
mem [Container.Make]
mem [Bounded_int_table]
mem [Avltree]
return true if key is present in the tree, otherwise return false.
merge [Core_map_intf.Accessors]
merges two maps
merge [List]
Merge two lists: assuming that l1 and l2 are sorted according to the comparison function cmp, merge cmp l1 l2 will return a sorted list containting all the elements of l1 and l2.
merge [Core_hashtbl_intf.Accessors]
Merge two hashtables.
merge_into [Core_hashtbl_intf.Accessors]
Merge one hashtable into another.
microsecond [Span]
millisecond [Span]
min [Polymorphic_compare]
min [No_polymorphic_compare]
min [Int_set]
min t the smallest number in the set (if it exists)
min [Polymorphic_compare_intf.S]
min [Comparable.Make_common.Replace_polymorphic_compare.Without_squelch]
min_elt [Core_set_intf.Accessors]
min_elt [Core_map_intf.Accessors]
min_elt map
min_elt_exn [Core_set_intf.Accessors]
min_elt_exn [Core_map_intf.Accessors]
min_float [Common]
min_inan [Float_intf.S]
min and max that return the other value if one of the values is a nan.
min_int [Common]
min_positive_value [Float_intf.S]
min_value [Int_intf.S]
min_value [Float_intf.S]
min_value [Char]
minflt [Unix.Resource_usage.Fields]
minflt [Unix.Resource_usage]
minor [Gc]
Trigger a minor collection.
minor_collections [Gc.Stat.Fields]
minor_collections [Gc.Stat]
minor_heap_size [Gc.Control.Fields]
minor_heap_size [Gc.Control]
minor_words [Gc.Stat.Fields]
minor_words [Gc.Stat]
minus_one [Int_intf.S]
minute [Span]
mkdir [Unix]
Create a directory.
mkdir_p [Unix]
Create a directory recursively.
mkdtemp [Unix]
mkdtemp prefix creates a temporary directory with prefix, automatically appending a suffix of six random characters to make the name unique.
mkfifo [Unix]
Create a named pipe with the given permissions.
mknod [Unix]
mknod ?file_kind ?perm ?major ?minor path creates a filesystem entry.
mkstemp [Unix]
mkstemp prefix creates and opens a unique temporary file with prefix, automatically appending a suffix of six random characters to make the name unique.
mktime [Unix]
Convert a date and time, specified by the tm argument, into a time in seconds, as returned by UnixLabels.time.
mlockall [Unix.Mman]
mod_float [Float_intf.S]
mod_float x y returns a result with the same sign as x.
mod_float [Common]
modf [Float_intf.S]
modf [Common]
mon [Weekday]
monotonic [Linux_ext.Timerfd.Clock]
Nonsettable clock.
month [Date]
most_recent [Backtrace.Exn]
most_recent () returns a string containing the stack that was unwound by the most recently raised exception.
msg_flag_of_sexp [Unix]
The flags for UnixLabels.recv, UnixLabels.recvfrom, UnixLabels.send and UnixLabels.sendto.
msgrcv [Unix.Resource_usage.Fields]
msgrcv [Unix.Resource_usage]
msgsnd [Unix.Resource_usage.Fields]
msgsnd [Unix.Resource_usage]
munlockall [Unix.Mman]

N
name [Univ.Constr]
name [Type_equal.Id]
name [Zone]
name zone returns the name of the time zone
name_info_of_sexp [Unix]
Host and service information returned by Unix.getnameinfo.
names [Unix.Resource_usage.Fields]
names [Gc.Control.Fields]
names [Gc.Stat.Fields]
nan [Float_intf.S]
nan [Common]
nanosecond [Span]
nanosleep [Unix]
nanosleep f delays execution of the program for at least f seconds.
nativeint [Random.State]
nativeint [Random]
Random.nativeint bound returns a random integer between 0 (inclusive) and bound (exclusive).
nativeint_to_int [Int_conversions]
nativeint_to_int32 [Int_conversions]
nativeint_to_int32_exn [Int_conversions]
nativeint_to_int64 [Int_conversions]
nativeint_to_int_exn [Int_conversions]
neg [Span]
negation
neg [Int_intf.S]
neg [Float_intf.S]
neg_infinity [Float_intf.S]
neg_infinity [Common]
never_returns [Never_returns]
never_returns [Common]
newline [Out_channel]
next [Doubly_linked]
constant-time move to next or previous element.
next_key [Core_map_intf.Accessors]
rank t k if k is in t, returns the number of keys strictly less than k in t, otherwise None
next_multiple [Time]
nget [String]
nget s i Gets the char at normalized position i in s.
nget [Array]
Array access with normalized index.
nice [Unix.Priority]
nice [Unix.RLimit]
nice [Unix]
Change the process priority.
nivcsw [Unix.Resource_usage.Fields]
nivcsw [Unix.Resource_usage]
nng [Quickcheck]
natural number generator
no_arg [Command.Deprecated.Spec]
no_arg [Command.Spec]
no_arg flags may be passed at most once.
no_arg_abort [Command.Spec]
no_arg_abort ~exit is like no_arg, but aborts command-line parsing by calling exit.
no_arg_register [Command.Spec]
no_arg_register ~key ~value is like no_arg, but associates value with key in the in the auto-completion environment
no_raise_of_sexp [Sexp]
no_raise is the identity, but by using 'a no_raise in a sexpable type, the resulting use sexp_of_no_raise protects the conversion of 'a to a sexp so that if it fails, one gets a sexp with an error message about the failure, rather than an exception being raised.
noctty [Unix.Open_flags]
nodename [Unix.Utsname]
non [Fn]
Negates a function
nonblock [Linux_ext.Timerfd.Flags]
TFD_NONBLOCK
nonblock [Unix.Open_flags]
none [Linux_ext.Epoll.Flags]
normalize [Ordered_collection_common]
normalize [Array]
normalize array index returns a new index into the array such that if index is less than zero, the returned index will "wrap around" -- i.e.
not_ [Blang]
now [Time_internal.T]
now [Time]
now [Time.Ofday]
nset [String]
nset s i c Sets the char at normalized position i to c.
nset [Array]
Array modification with normalized index.
nsignals [Unix.Resource_usage.Fields]
nsignals [Unix.Resource_usage]
nswap [Unix.Resource_usage.Fields]
nswap [Unix.Resource_usage]
nth [List]
nth [Bigbuffer]
get the (zero-based) n-th character of the buffer.
nth_exn [List]
Return the n-th element of the given list.
num_bits [Word_size]
num_bits [Int_intf.S]
num_file_descriptors [Unix.RLimit]
num_threads [Thread]
num_threads () attempts to return the number of currently running threads by parsing /proc.
nvcsw [Unix.Resource_usage.Fields]
nvcsw [Unix.Resource_usage]

O
ocaml_version [Sys]
ocaml_version is the version of Objective Caml.
occurrence [Time]
occurrence side time ~ofday ~zone returns a Time.t that is the occurrence of ofday (in the given zone) that is the latest occurrence (<=) time or the earliest occurrence (>=) time, according to side.
of_alist [Core_map_intf.Creators]
creates map from association list with unique keys
of_alist [Core_hashtbl_intf.Creators]
of_alist [Bounded_int_table.With_key]
of_alist_exn [Core_map_intf.Creators]
creates map from association list with unique keys.
of_alist_exn [Core_hashtbl_intf.Creators]
of_alist_exn [Command.Spec.Arg_type]
convenience wrapper for of_map.
of_alist_exn [Bounded_int_table.With_key]
of_alist_fold [Core_map_intf.Creators]
combines an association list into a map, folding together bound values with common keys
of_alist_multi [Core_map_intf.Creators]
creates map from association list with possibly repeated keys.
of_alist_multi [Core_hashtbl_intf.Creators]
of_alist_report_all_dups [Core_hashtbl_intf.Creators]
of_array [Heap]
of_array ?min_size cmp ar
of_array [Core_set_intf.Creators]
of_array [Queue]
of_bigstring [Substring_intf.S]
of_bigstring [Make_substring.Base]
of_bigstring [Make_substring.F]
of_bigstring [Interned_string.Make]
of_bigstring [Unix.IOVec]
of_bigstring ?pos ?len bstr
of_bigstring [Binable0]
of_bigstring [Binable]
of_caml_int [Signal]
of_caml_int constructs a Signal.t given an O'Caml internal signal number.
of_char [String]
of_char_list [String]
of_code [Unix.Exit]
of_date_ofday [Time]
of_day [Span]
of_exn [Or_error]
of_exn exn is Error (Error.of_exn exn).
of_exn [Info]
of_exn_result [Or_error]
of_exn_result (Ok a) = Ok a, of_exn_result (Error exn) = of_exn exn
of_filename_string [Time]
of_filename_string s converts s that has format YYYY-MM-DD_HH-MM-SS.mmm into time
of_float [Floatable.S]
of_float [Int64]
of_hashtbl_keys [Hash_set_intf.Accessors]
of_hr [Span]
of_int [Weekday]
of_int i returns i'th weekday if i is in 0,1,...,6.
of_int [Pid]
of_int [Ordering]
of_int n is:
of_int [Month]
of_int i returns i'th month if i is in 1,2,...,12.
of_int [Linux_ext.Priority]
of_int [Float_intf.S]
of_int [Flags_intf.S]
of_int [Unix.File_descr]
of_int [Nativeint]
of_int [Int64]
of_int [Int63]
of_int [Int32]
of_int [Int]
of_int [Char]
Return the character with the given ASCII code or None is the argument is outside the range 0 to 255.
of_int32 [Nativeint]
of_int32 [Int64]
of_int32 [Int32]
of_int32 [Int]
of_int32_exn [Int_intf.S]
of_int64 [Float_intf.S]
of_int64 [Nativeint]
of_int64 [Int64]
of_int64 [Int32]
of_int64 [Int]
of_int64_exn [Int_intf.S]
of_int64_exn [Int]
of_int_exn [Weekday]
of_int_exn i should have i in 0,1,...,6 and returns the i'th weekday.
of_int_exn [Month]
of_int_exn [Intable.S]
of_int_exn [Char]
Return the character with the given ASCII code.
of_int_sec [Span]
of_int_style [Sexp]
of_key [Core_hashtbl_intf.Hashable]
of_lazy [Info]
Be careful that the body of the lazy or thunk does not access mutable data, since it will only be called at an undetermined later point.
of_list [Info]
of_list [Hash_set_intf.Creators]
of_list [Doubly_linked]
of_list l returns a doubly-linked list t with the same elements as l and in the same order (i.e.
of_list [Stack]
of_list l returns a stack whose top is the first element of l and * bottom is the last element of l.
of_list [Core_set_intf.Creators]
of_list [Queue]
of_list list returns a queue t with the elements of list in the same order as the elements of list (i.e.
of_list [Array]
Array.of_list l returns a fresh array containing the elements of l.
of_list [Bag]
of_list_map [Array]
of_list_map l ~f is the same as of_list (List.map l ~f)
of_list_rev [Array]
of_list_rev l converts from list then reverses in place
of_list_rev_map [Array]
of_list_rev_map l ~f is the same as rev_inplace (of_list_map l ~f)
of_local_date_ofday [Time]
of_localized_string [Time]
of_localized_string zone str read in the given string assuming that it represents a time in zone and return the appropriate Time.t
of_map [Command.Spec.Arg_type]
an auto-completing Arg_type over a finite set of values
of_min [Span]
of_ms [Span]
of_nativeint [Nativeint]
of_nativeint [Int64]
of_nativeint [Int32]
of_nativeint [Int]
of_nativeint_exn [Int_intf.S]
of_ns [Span]
of_option [Result]
of_sec [Span]
of_sorted_array [Core_set_intf.Creators]
Create set from sorted array.
of_sorted_array [Core_map_intf.Creators]
creates map from sorted array of key-data pairs.
of_sorted_array_unchecked [Core_set_intf.Creators]
Similar to of_sorted_arary without checking the input array.
of_sorted_array_unchecked [Core_map_intf.Creators]
Like of_sorted_array except behavior is undefined when an Error would have been returned.
of_span_since_start_of_day [Ofday]
of_string [Span]
of_string [Sexpable.To_stringable]
of_string [Substring_intf.S]
of_string [Make_substring.Base]
of_string [Make_substring.F]
of_string [Stringable.S]
of_string [Info]
of_string [Unix.IOVec]
of_string ?pos ?len str
of_string [Unix.Inet_addr]
Conversion from the printable representation of an Internet address to its internal representation.
of_string [Binable]
of_string [Bigstring]
of_string ?pos ?len str
of_string_abs [Time]
of_string_abs s is like of_string, but demands that s indicate the timezone the time is expressed in.
of_string_fix_proto [Time]
of_string_iso8601_basic [Date]
of_string_iso8601_extended [Ofday]
of_string_or_getbyname [Unix.Inet_addr]
Call of_string and if that fails, use Host.getbyname.
of_system_int [Signal]
of_system_int and to_system_int return and take respectively a signal number corresponding to those in the system's /usr/include/bits/signum.h (or equivalent).
of_system_int [Unix.Error]
of_thunk [Only_in_test]
of_thunk [Info]
of_time [Time.Date]
of_tm [Date]
of_tree [Core_set_intf.Creators]
of_tree [Core_map_intf.Creators]
of_unix [Unix.Exit_or_signal_or_stop]
of_unix assumes that any signal numbers in the incoming value are O'Caml internal signal numbers.
of_unix [Unix.Exit_or_signal]
of_unix assumes that any signal numbers in the incoming value are O'Caml internal signal numbers.
of_us [Span]
of_utc_offset [Zone]
of_utc_offset offset returns a timezone with a static UTC offset (given in hours).
ok [Result]
ok_exn [Result]
ok_exn t returns x if t = Ok x, and raises exn if t = Error exn
ok_exn [Or_error]
ok_exn t throws an exception if t is an Error, and otherwise returns the contents of the Ok constructor.
ok_exn [Common]
Or_error.ok_exn
ok_fst [Result]
ok_fst is useful with List.partition_map.
ok_if_true [Result]
ok_or_failwith [Result]
ok_unit [Result]
ok_unit = Ok (), used to avoid allocation as a performance hack
one [Int_intf.S]
oneshot [Linux_ext.Epoll.Flags]
open_connection [Unix]
Connect to a server at the given address.
open_flag_of_sexp [Unix]
open_process [Unix]
See UnixLabels.open_process_in.
open_process_full [Unix]
open_process_in [Unix]
High-level pipe and process management.
open_process_out [Unix]
See UnixLabels.open_process_in.
open_temp_file [Filename]
Same as Filename.temp_file, but returns both the name of a fresh temporary file, and an output channel opened (atomically) on this file.
opendir [Unix]
Open a descriptor on a directory
openfile [Unix]
Open the named file with the given flags.
optional [Command.Spec]
optional flags may be passed at most once
optional_with_default [Command.Spec]
optional_with_default flags may be passed at most once, and default to a given value
or_ [Blang]
os_type [Sys]
Operating system currently executing the Caml program.
oublock [Unix.Resource_usage.Fields]
oublock [Unix.Resource_usage]
out [Linux_ext.Epoll.Flags]
out_channel_length [Common]
out_channel_of_descr [Unix]
Create an output channel writing on the given descriptor.
out_channel_realpath [Linux_ext]
out_channel_realpath oc
outer_of_sexp [Float_intf.S]
output [Out_channel]
output [Bigstring]
output ?min_len oc ?pos ?len bstr tries to output len bytes (guarantees to write at least min_len bytes (must be equal to or greater than zero), if possible, before returning) from bigstring bstr starting at position pos to output channel oc.
output_binary_int [Out_channel]
output_buffer [Bigbuffer]
output_buffer oc b writes the current contents of buffer b on the output channel oc.
output_byte [Out_channel]
output_char [Out_channel]
output_lines [Out_channel]
Outputs a list of lines, each terminated by a newline character
output_string [Out_channel]
output_value [Out_channel]

P
pack_float [Binary_packing]
pack_padded_fixed_string [Binary_packing]
Encode and pack the given string as a padded fixed length string having length len.
pack_signed_16 [Binary_packing]
pack_signed_16_big_endian [Binary_packing]
pack_signed_16_little_endian [Binary_packing]
pack_signed_32 [Binary_packing]
pack_signed_32_int [Binary_packing]
pack_signed_32_int_big_endian [Binary_packing]
pack_signed_32_int_little_endian [Binary_packing]
pack_signed_64 [Binary_packing]
pack_signed_64_big_endian [Binary_packing]
pack_signed_64_int [Binary_packing]
pack_signed_64_little_endian [Binary_packing]
pack_signed_8 [Binary_packing]
pack_unsigned_16 [Binary_packing]
pack_unsigned_16_big_endian [Binary_packing]
pack_unsigned_16_little_endian [Binary_packing]
pack_unsigned_32_int [Binary_packing]
pack_unsigned_32_int_big_endian [Binary_packing]
pack_unsigned_32_int_little_endian [Binary_packing]
pack_unsigned_8 [Binary_packing]
parent_dir_name [Filename]
The conventional name for the parent of the current directory (e.g.
parse [Arg]
Arg.parse speclist anon_fun usage_msg parses the command line.
parse_argv [Arg]
Arg.parse_argv ~current args speclist anon_fun usage_msg parses the array args as if it were the command line.
parse_four_digits [Time_internal.Helpers]
parse_ssh_client [Process_env]
parse_ssh_client reads the SSH_CLIENT environment variable, retrieving the IP from which you are currently sshing.
parse_two_digits [Time_internal.Helpers]
partial_iter [Queue]
partial_iter t ~f iterates through t until f returns `Stop
partition_map [List]
partition_map t ~f partitions t according to f.
partition_map [Core_hashtbl_intf.Accessors]
returns new maps with bound values partitioned by f applied to the bound values
partition_mapi [Core_hashtbl_intf.Accessors]
like partition_map, but function takes both key and data as arguments
partition_tf [Core_set_intf.Accessors]
partition_tf [List]
partition_tf p l returns a pair of lists (l1, l2), where l1 is the list of all the elements of l that satisfy the predicate p, and l2 is the list of all the elements of l that do not satisfy p.
partition_tf [Core_hashtbl_intf.Accessors]
partition_tf [Array]
partitioni_tf [Core_hashtbl_intf.Accessors]
partitioni_tf [Array]
parts [Filename]
parts filename returns a list of path components in order.
path [Command.Spec]
the subcommand path of the command
pause [Time]
pause span sleeps for span time.
pause [Unix]
Wait until a non-ignored, non-blocked signal is delivered.
pause_forever [Time]
pause_forever sleeps indefinitely.
peek [Queue]
peek t returns None if t is empty, otherwise it returns Some x where x is the front of t.
peek_exn [Queue]
permute [List]
permute ?random_state t returns a permutation of t.
permute [Array]
permute ?random_state t randomly permutes t in place.
permute [Array_permute]
randomly permute an array.
pg [Quickcheck]
pair generator
phys_equal [Mutex0]
phys_equal [Common]
We disable == and != and replace them with the longer and more mnemonic phys_equal because they too easily lead to mistakes (for example they don't even work right on Int64 or Float).
pipe [Signal]
Terminate Broken pipe
pipe [Unix]
Create a pipe.
poly [Core_hashtbl_intf.Hashable]
pop [Squeue]
pops an element off the queue, blocking until something is * available
pop [Heap]
pop heap
pop [Hash_heap.S]
pop [Hash_heap.Make]
pop [Stack]
pop t returns None if t is empty, otherwise it returns Some x where x is the top of t and removes x from the top of t.
pop_exn [Heap]
pop_exn heap
pop_exn [Hash_heap.S]
pop_exn [Hash_heap.Make]
pop_exn [Stack]
pop_exn t removes and returns the top element of t, raising Empty if t is empty.
pop_heap_el [Heap]
pop_heap_el heap
pop_heap_el_exn [Heap]
pop_heap_el_exn heap
pop_with_key [Hash_heap.S]
pop_with_key [Hash_heap.Make]
pop_with_key_exn [Hash_heap.S]
pop_with_key_exn [Hash_heap.Make]
port [Host_and_port]
pos [Out_channel]
pos [Substring_intf.S]
pos [Make_substring.F]
pos [In_channel]
pos_in [Common]
pos_out [Common]
pp [Pretty_printer.S]
pp [Info]
pr_get_name [Linux_ext]
pr_get_name () gets the name of the executing thread.
pr_get_pdeathsig [Linux_ext]
pr_get_pdeathsig () get the signal that will be sent to the currently executing process when its parent dies.
pr_set_name_first16 [Linux_ext]
pr_set_name_first16 name sets the name of the executing thread to name.
pr_set_pdeathsig [Linux_ext]
pr_set_pdeathsig s sets the signal s to be sent to the executing process when its parent dies.
pread_assume_fd_is_nonblocking [Bigstring]
pread_assume_fd_is_nonblocking fd ~offset ?pos ?len bstr reads up to len bytes from file descriptor fd at offset offset, and writes them to bigstring bstr starting at position pos.
pred [Int_intf.S]
prefix [Substring_intf.S]
prefix [Make_substring.F]
prefix [String]
prefix s n returns the longest prefix of s of length less than or equal to n
prev [Doubly_linked]
prev_key [Core_map_intf.Accessors]
prev_key t k returns the largest (key, value) pair in t with key less than k
previous_weekday [Date]
pri [Linux_ext.Epoll.Flags]
print [Printexc]
print_backtrace [Printexc]
print_stat [Gc]
Print the current values of the memory management counters (in human-readable form) into the channel argument.
printf [Std_internal]
printf [Printf]
process_times_of_sexp [Unix]
The execution times (CPU times) of a process.
prof [Signal]
Terminate Profiling interrupt
promoted_words [Gc.Stat.Fields]
promoted_words [Gc.Stat]
protect [Exn]
protect [Common]
See exn.mli
protectx [Exn]
Executes f and afterwards executes finally, whether f throws an exception or not.
protectx [Common]
pselect [Unix]
pselect rfds wfds efds timeout sigmask like Unix.select but also allows one to wait for the arrival of signals.
push [Squeue]
Blocks until there's room on the queue, then pushes.
push [Heap]
push heap el pushes element el on heap.
push [Hash_heap.S]
push [Hash_heap.Make]
push [Stack]
push t x adds x to the top of stack t.
push_back [Dequeue]
push_exn [Hash_heap.S]
push_exn [Hash_heap.Make]
push_front [Dequeue]
push_heap_el [Heap]
push_heap_el heap heap_el pushes heap_el on heap.
push_or_drop [Squeue]
Pushes an event on the queue if the queue is less than maxsize, otherwise drops it.
push_uncond [Squeue]
Does not block, may grow the queue past maxsize
putenv [Unix]
Unix.putenv ~key ~data sets the value associated to a variable in the process environment.
pwrite_assume_fd_is_nonblocking [Bigstring]
pwrite_assume_fd_is_nonblocking fd ~offset ?pos ?len bstr writes up to len bytes of bigstring bstr starting at position pos to file descriptor fd at position offset.

Q
quick_stat [Gc]
Same as stat except that live_words, live_blocks, free_words, free_blocks, largest_free, and fragments are set to 0.
quit [Signal]
Dump_core Interactive termination
quote [Filename]
Return a quoted version of a file name, suitable for use as one argument in a command line, escaping all meta-characters.

R
raise [Error]
randomize [Span]
randomize t ~percent returns a span +/- percent * original span.
range [List]
range ?stride ?start ?stop start_i stop_i is the list of integers from start_i to stop_i, stepping by stride.
range_to_alist [Core_map_intf.Accessors]
range_to_alist t ~min ~max returns an associative list of the elements whose keys lie in min, max (inclusive), with the smallest key being at the head of the list.
ranges [Int_set]
ranges t return a list of all ranges that make up the set
rank [Core_map_intf.Accessors]
rdonly [Unix.Open_flags]
access mode.
rdwr [Unix.Open_flags]
read [Unix]
read fd buff ofs len reads len characters from descriptor fd, storing them in string buff, starting at position ofs in string buff.
read [Bigstring]
read ?min_len fd ?pos ?len bstr reads at least min_len (must be greater than or equal zero) and at most len (must be greater than or equal to min_len) bytes from file descriptor fd, and writes them to bigstring bstr starting at position pos.
read_all [In_channel]
read_all filename Opens filename, reads all input, and closes the file.
read_assume_fd_is_nonblocking [Unix]
read_assume_fd_is_nonblocking fd ?pos ?len buf calls the system call read ASSUMING THAT IT IS NOT GOING TO BLOCK.
read_assume_fd_is_nonblocking [Bigstring]
read_assume_fd_is_nonblocking fd ?pos ?len bstr reads up to len bytes into bigstring bstr starting at position pos from file descriptor fd without yielding to other OCaml-threads.
read_lines [In_channel]
read_lines filename Opens filename, reads all lines, and closes the file.
read_only_of_sexp [Common]
read_write_of_sexp [Common]
readdir [Unix]
Return the next entry in a directory.
readdir [Sys]
Return the names of all files present in the given directory.
readdir_ino [Unix]
readdir_ino dh return the next entry in a directory (((filename, inode)).
readlink [Unix]
Read the contents of a link.
really_input [In_channel]
really_input [Bigstring]
really_input ic ?pos ?len bstr reads exactly len bytes from input channel ic, and writes them to bigstring bstr starting at position pos.
really_output [Bigstring]
really_output oc ?pos ?len bstr outputs exactly len bytes from bigstring bstr starting at position pos to output channel oc.
really_read [Bigstring]
really_read fd ?pos ?len bstr reads len bytes from file descriptor fd, and writes them to bigstring bstr starting at position pos.
really_recv [Bigstring]
really_recv sock ?pos ?len bstr receives len bytes from socket sock, and writes them to bigstring bstr starting at position pos.
really_send_no_sigpipe [Bigstring]
really_send_no_sigpipe sock ?pos ?len bstr sends len bytes in bigstring bstr starting at position pos to socket sock without blocking and ignoring SIGPIPE.
really_write [Bigstring]
really_write fd ?pos ?len bstr writes len bytes in bigstring bstr starting at position pos to file descriptor fd.
realpath [Filename]
realpath path
realtime [Linux_ext.Timerfd.Clock]
Settable system-wide clock.
record_backtrace [Printexc]
recv [Unix]
Receive data from an unconnected socket.
recvfrom [Unix]
Receive data from an unconnected socket.
recvfrom_assume_fd_is_nonblocking [Bigstring]
recvfrom_assume_fd_is_nonblocking sock ?pos ?len bstr reads up to len bytes into bigstring bstr starting at position pos from socket sock without yielding to other OCaml-threads.
reduce [List]
reduce [Array]
reduce f [a1; ...; an] is Some (f (... (f (f a1 a2) a3) ...) an).
reduce_exn [List]
reduce_exn f [a1; ...; an] is f (... (f (f a1 a2) a3) ...) an.
reduce_exn [Array]
refl [Type_equal]
refl, sym, and trans construct proofs that type equality is reflexive, symmetric, and transitive.
register [Pretty_printer]
register name adds name to the list of pretty printers.
release [Unix.Utsname]
rem [Int_intf.S]
remove [Timer]
remove event removes event from its associated timer.
remove [Linux_ext.Epoll]
remove [Heap]
remove heap_el removes heap_el from its associated heap.
remove [Hash_set_intf.Accessors]
remove [Hash_heap.S]
remove [Hash_queue.S]
remove [Hash_heap.Make]
remove [Hash_queue.Make]
remove [Doubly_linked]
constant-time removal of an element.
remove [Sys]
Remove the given file name from the file system.
remove [Core_set_intf.Accessors]
remove [Core_map_intf.Accessors]
returns a new map with any binding for the key in question removed
remove [List.Assoc]
remove [Core_hashtbl_intf.Accessors]
remove [Bounded_int_table]
remove [Bag]
remove t elt removes elt from the bag t, raising an exception if elt is not in the bag.
remove [Avltree]
remove key destructively from the tree if it exists, return the new root node.
remove_consecutive_duplicates [List]
remove_consecutive_duplicates.
remove_exn [Hash_queue.S]
remove_exn [Hash_queue.Make]
remove_first [Doubly_linked]
remove_index [Core_set_intf.Accessors]
remove_last [Doubly_linked]
remove_multi [Core_hashtbl_intf.Accessors]
remove_multi t key updates the table, removing the head of the list bound to key.
remove_one [Core_hashtbl_intf.Accessors]
remove_one [Bag]
remove_one t removes some element from the bag, and returns its value.
rename [Unix]
rename old new changes the name of a file from old to new.
rename [Sys]
Rename a file.
repeat [Quickcheck]
replace [Ref]
replace t f is t := f !t
replace [Hash_heap.S]
replace [Hash_queue.S]
replace q k v changes the value of key k in the queue to v.
replace [Hash_heap.Make]
replace [Hash_queue.Make]
replace [Core_hashtbl_intf.Accessors]
replace [Array]
replace t i ~f = t.(i) <- f (t.(i)).
replace_all [Array]
modifies an array in place -- ar.(i) will be set to f(ar.(i))
replace_exn [Hash_queue.S]
replace_exn [Hash_queue.Make]
required [Command.Spec]
required flags must be passed exactly once
reraise [Exn]
reraise_uncaught [Exn]
reraisef [Exn]
reschedule [Timer]
reschedule event ?randomize ?interval span reschedules event to start by time span span later than originally scheduled, and change its interval behaviour as described for Timer.add.
reset [Bigbuffer]
Empty the buffer and deallocate the internal string holding the buffer contents, replacing it with the initial internal string of length n that was allocated by Bigbuffer.create n.
resource_of_sexp [Unix.RLimit]
retry_until_no_eintr [Unix]
retry_until_no_eintr f returns f () unless f () fails with EINTR; in which case f () is run again until it raises a different error or returns a value.
return [Monad.S2]
return [Monad.Basic2]
return [Monad.Basic]
return [Monad.Make2]
return [Monad.Make]
return [Monad.S]
return v returns the (trivial) computation that returns v.
rev [List]
List reversal.
rev_append [List]
List.rev_append l1 l2 reverses l1 and concatenates it to l2.
rev_filter [List]
Like filter, but reverses the order of the input list
rev_filter_map [List]
rev_filter_map f l is the reversed sublist of l containing only elements for which f returns Some e.
rev_filter_mapi [List]
rev_filter_mapi is just like rev_filter_map, but it also passes in the index of each element as the first argument to the mapped function.
rev_inplace [Array]
rev_inplace t reverses t in place
rev_map [List]
List.rev_map f l gives the same result as List.rev (ListLabels.map f l), but is more efficient.
rev_map2_exn [List]
List.rev_map2_exn f l1 l2 gives the same result as List.rev (List.map2_exn f l1 l2), but is more efficient.
rev_map3_exn [List]
rev_map_append [List]
rev_map_append ~f l1 l2 reverses l1 mapping f over each element, and appends the result to the front of l2.
rev_mapi [List]
rewinddir [Unix]
Reposition the descriptor to the beginning of the directory
rfindi [String]
rfindi ?pos t ~f returns the largest i <= pos such that f i t.[i], if there is such an i.
rindex [String.Escaping]
rindex s ~escape_char char find the first literal (not escaped) instance of char in s starting from the end of s and proceeding towards 0.
rindex [String]
rindex_exn [String.Escaping]
rindex_exn [String]
rindex_from [String.Escaping]
rindex_from s ~escape_char pos char find the first literal (not escaped) instance of char in s starting from pos and towards 0.
rindex_from [String]
rindex_from_exn [String.Escaping]
rindex_from_exn [String]
rmdir [Unix]
Remove an empty directory.
robustly_compare [Robustly_comparable.S]
root [Filename]
The path of the root.
round [Std_internal]
round [Float_intf.S]
round_down [Float_intf.S]
round_nearest [Float_intf.S]
round_towards_zero [Float_intf.S]
round_up [Float_intf.S]
rsplit2 [String.Escaping]
rsplit2 [String]
rsplit2 line ~on optionally returns line split into two strings around the * first appearance of on from the right
rsplit2_exn [String.Escaping]
rsplit2_exn [String]
If the string s contains the character on, then rsplit2_exn s ~on returns a pair containing s split around the first appearance of on (from the right).
rstrip [String]
rstrip ?drop s returns a string with consecutive chars satisfying drop (by default white space, e.g.
rsync [Unix.Open_flags]
run [Command.Deprecated]
run [Command]
run a command against Sys.argv

S
same [Type_equal.Id]
same_witness t1 t2 and same_witness_exn t1 t2 return a type equality proof iff the two identifiers are physically equal.
same_class [Union_find]
same_class t1 t2 returns true iff t1 and t2 are in the same equivalence class.
same_witness [Type_equal.Id]
same_witness_exn [Type_equal.Id]
sat [Weekday]
scale [Span]
scale [Float_intf.S]
scale [Byte_units]
scale t mul scale the measure t by mul
sched_setaffinity [Linux_ext]
sched_setaffinity_this_thread [Linux_ext]
sec [Std]
second [Span]
seek [Out_channel]
seek [In_channel]
seek_command_of_sexp [Unix]
POSITIONING modes for UnixLabels.lseek.
seek_in [Common]
seek_out [Common]
segv [Signal]
Dump_core Invalid memory reference
select [Unix]
Setting restart to true means that we want select to restart automatically on EINTR (instead of propagating the exception)...
self [Thread]
Return the thread currently executing.
self_init [Random]
Initialize the generator with a more-or-less random seed chosen in a system-dependent way.
send [Signal]
send signal pid sends signal to the process whose process id is pid.
send [Unix]
Send data over an unconnected socket.
send_exn [Signal]
send_exn signal ~pid sends signal to the process whose process id is * pid.
send_i [Signal]
send_i signal ~pid sends signal to the process whose process id is pid.
send_no_sigpipe [Linux_ext]
send_no_sigpipe sock ?pos ?len buf tries to do a blocking send on socket sock given buffer buf, offset pos and length len.
send_nonblocking_no_sigpipe [Linux_ext]
send_nonblocking_no_sigpipe sock ?pos ?len buf tries to do a nonblocking send on socket sock given buffer buf, offset pos and length len.
send_nonblocking_no_sigpipe [Bigstring]
send_nonblocking_no_sigpipe sock ?pos ?len bstr tries to send len bytes in bigstring bstr starting at position pos to socket sock.
sendfile [Linux_ext]
sendfile ?pos ?len ~fd sock sends mmap-able data from file descriptor fd to socket sock using offset pos and length len.
sendmsg_nonblocking_no_sigpipe [Linux_ext]
sendmsg_nonblocking_no_sigpipe sock ?count iovecs tries to do a nonblocking send on socket sock using count I/O-vectors iovecs.
sendmsg_nonblocking_no_sigpipe [Bigstring]
sendmsg_nonblocking_no_sigpipe sock ?count iovecs sends count iovecs of bigstrings to socket sock.
sendto [Unix]
Send data over an unconnected socket.
sendto_nonblocking_no_sigpipe [Bigstring]
sendto_nonblocking_no_sigpipe sock ?pos ?len bstr sockaddr tries to send len bytes in bigstring bstr starting at position pos to socket sock using address addr.
sequence [Command.Spec]
sequence anons specifies a sequence of anonymous arguments.
set [Univ_map.Multi]
set [Univ_map.With_fold]
set [Univ_map.With_default]
set [Univ_map]
set [Union_find]
set t v sets the value of the class of t to v.
set [Signal]
set t b is ignore (signal t b)
set [Set_once]
set [Linux_ext.Epoll]
set [Linux_ext.Timerfd]
set t when sets t to fire once, at the time specified by when.
set [Weak]
set [Unix.Scheduler]
set [Unix.RLimit]
set [String]
set [Core_hashtbl_intf.Accessors]
set [Gc]
set r changes the GC parameters according to the control record r.
set [Array]
Array.set a n x modifies array a in place, replacing element number n with x.
set [Bounded_int_table]
set [Bigstring]
set t pos sets the character at pos
set_allocation_policy [Gc.Control]
set_binary_mode [Out_channel]
set_binary_mode [In_channel]
set_close_on_exec [Unix]
Set the ``close-on-exec'' flag on the given descriptor.
set_exn [Set_once]
set_exn [Dequeue]
set_in_channel_timeout [Unix]
Set a timeout for a socket associated with an in_channel
set_major_heap_increment [Gc.Control]
set_max_overhead [Gc.Control]
set_mcast_loop [Unix]
set_mcast_loop sock loop sets the boolean argument that determines whether sent multicast packets are looped back to local sockets.
set_mcast_ttl [Unix]
set_mcast_ttl sock ttl sets the time-to-live value of outgoing multicast packets for socket sock to ttl.
set_minor_heap_size [Gc.Control]
set_nonblock [Unix]
Set the ``non-blocking'' flag on the given descriptor.
set_out_channel_timeout [Unix]
Set a timeout for a socket associated with an out_channel
set_recording [Backtrace.Exn]
set_repeating [Linux_ext.Timerfd]
set_repeating ?initial t interval sets t to fire every interval starting at when.
set_space_overhead [Gc.Control]
set_stack_limit [Gc.Control]
set_state [Random]
Set the state of the generator used by the basic functions.
set_time [Linux_ext.Clock]
set_verbose [Gc.Control]
setgid [Unix]
Set the real group id and effective group id for the process.
setitimer [Unix]
setitimer t s sets the interval timer t and returns its previous status.
setpriority [Linux_ext]
Set the calling thread's priority in the linux scheduler
setpwent [Unix.Passwd.Low_level]
setsid [Unix.Terminal_io]
Put the calling process in a new session and detach it from its controlling terminal.
setsockopt [Unix]
Set or clear a boolean-valued option in the given socket.
setsockopt_float [Unix]
Same as UnixLabels.setsockopt for a socket option whose value is a floating-point number.
setsockopt_int [Unix]
Same as UnixLabels.setsockopt for an integer-valued socket option.
setsockopt_optint [Unix]
Same as UnixLabels.setsockopt for a socket option whose value is an int option.
settcpopt_bool [Linux_ext]
settcpopt_bool sock opt v sets the current value of the boolean TCP socket option opt for socket sock to value v.
setuid [Unix]
Sets the real user id and effective user id for the process.
sexp [Unpack_buffer.Unpack_one]
sexp_of_addr_info [Unix]
sexp_of_decimal [Common]
sexp_of_env [Unix]
sexp_of_error [Unix.Exit_or_signal_or_stop]
sexp_of_error [Unix.Exit_or_signal]
sexp_of_error [Unix.Exit]
sexp_of_error [Unix]
Unknown error
sexp_of_exn [Std_internal]
sexp_of_file_kind [Unix]
Socket
sexp_of_file_perm [Unix]
sexp_of_flow_action [Unix.Terminal_io]
sexp_of_flush_queue [Unix.Terminal_io]
sexp_of_getaddrinfo_option [Unix]
sexp_of_getnameinfo_option [Unix]
sexp_of_heap_el [Heap]
Type of heap elements (they can be efficiently removed)
sexp_of_immutable [Common]
sexp_of_int_style [Int_conversions]
sexp_of_interval_timer [Unix]
(for profiling) decrements both when the process is running and when the system is running on behalf of the process; it sends SIGPROF when expired.
sexp_of_interval_timer_status [Unix]
sexp_of_key [Core_hashtbl_intf.Accessors]
sexp_of_limit [Unix.RLimit]
sexp_of_lock_command [Unix]
Lock a region for reading, or fail if already locked
sexp_of_msg_flag [Unix]
sexp_of_name_info [Unix]
Name of service or port number
sexp_of_never_returns [Never_returns]
sexp_of_never_returns [Common]
never_returns should be used as the return type of functions that don't return and might block forever, rather than 'a or _.
sexp_of_no_raise [Sexp]
sexp_of_open_flag [Unix]
Windows only: allow the file to be deleted while still open
sexp_of_outer [Float_intf.S]
sexp_of_process_times [Unix]
sexp_of_read_only [Common]
sexp_of_read_write [Common]
sexp_of_resource [Unix.RLimit]
sexp_of_seek_command [Unix]
indicates positions relative to the end of the file
sexp_of_select_timeout [Unix]
sexp_of_setattr_when [Unix.Terminal_io]
sexp_of_shutdown_command [Unix]
Close both
sexp_of_sockaddr [Unix]
sexp_of_socket_bool_option [Unix]
Forbid binding an IPv6 socket to an IPv4 address
sexp_of_socket_domain [Unix]
sexp_of_socket_float_option [Unix]
Timeout for output operations
sexp_of_socket_int_option [Unix]
sexp_of_socket_type [Unix]
sexp_of_stats [Unix.Native_file]
sexp_of_stats [Unix]
sexp_of_sys_behavior [Signal]
sexp_of_sysconf [Unix]
sexp_of_t [Time]
sexp_of_t [Weekday]
sexp_of_t [Uuid]
sexp_of_t [Unpack_buffer]
sexp_of_t [Univ_map.Key]
create name to_sexp generates a fresh key.
sexp_of_t [Univ_map]
sexp_of_t [Univ.Constr]
sexp_of_t [Univ]
sexp_of_t [Unique_id_intf.Id]
sexp_of_t [Type_equal.Id]
sexp_of_t [Tuple.Hashable_sexpable]
sexp_of_t [Tuple.Comparable_sexpable]
sexp_of_t [Tuple.T3]
sexp_of_t [Tuple.T2]
sexp_of_t [Thread_safe_queue]
sexp_of_t [Stable_unit_test_intf.Unordered_container_arg]
sexp_of_t [Stable_containers.Map.V1]
sexp_of_t [Stable_containers.Hash_set.V1]
sexp_of_t [Stable_containers.Hashtbl.V1]
sexp_of_t [Stable_containers.Set.V1]
sexp_of_t [Zone.Stable.V1]
sexp_of_t [Weekday.Stable.V1]
sexp_of_t [User_and_group.Stable.V1]
sexp_of_t [Time.Stable.V1]
sexp_of_t [String_id.Stable.V1]
sexp_of_t [Squeue]
sexp_of_t [Span.Stable.V1]
sexp_of_t [Span.Parts]
sexp_of_t [Span]
sexp_of_t [Source_code_position0]
sexp_of_t [Source_code_position]
sexp_of_t [Signal]
sexp_of_t [Sexpable.S3]
sexp_of_t [Sexpable.S2]
sexp_of_t [Sexpable.S1]
sexp_of_t [Sexpable.Of_stringable]
sexp_of_t [Sexpable.Of_sexpable]
sexp_of_t [Set_once]
sexp_of_t [Stable_unit_test_intf.Arg]
sexp_of_t [Result.Stable.V1]
sexp_of_t [Result]
sexp_of_t [Ref]
sexp_of_t [Piecewise_linear_intf.Value]
sexp_of_t [Piecewise_linear_intf.Key]
sexp_of_t [Piecewise_linear_intf.S]
sexp_of_t [Pid]
sexp_of_t [Or_error]
sexp_of_t [Ordering]
sexp_of_t [Option]
sexp_of_t [Ofday.Stable.V1]
sexp_of_t [Ofday]
sexp_of_t [Nothing0]
sexp_of_t [Nothing.Stable.V1]
sexp_of_t [Nano_mutex]
sexp_of_t [Month.Stable.V1]
sexp_of_t [Month]
sexp_of_t [Linux_ext.Epoll.Flags]
sexp_of_t [Linux_ext.Epoll]
sexp_of_t [Linux_ext.Priority]
sexp_of_t [Linux_ext.Timerfd.Flags]
sexp_of_t [Linux_ext.Timerfd.Clock]
sexp_of_t [Linux_ext.Timerfd]
sexp_of_t [Linux_ext.Sysinfo]
sexp_of_t [Int_intf.S]
sexp_of_t [Interval_intf.S.Set]
sexp_of_t [Interval_intf.S]
sexp_of_t [Interval_intf.S1.Set]
sexp_of_t [Interval_intf.S1]
sexp_of_t [Interval.Stable.V1.Ofday]
sexp_of_t [Interval.Stable.V1.Int]
sexp_of_t [Interval.Stable.V1.Float]
sexp_of_t [Sexpable.S]
sexp_of_t [Int_conversions.Make]
sexp_of_t [Info]
sexp_of_t [Identifiable.S]
sexp_of_t [Host_and_port.Stable.V1]
sexp_of_t [Heap_block]
sexp_of_t [Heap]
sexp_of_t [Hash_set_intf.S]
sexp_of_t [Hash_set.Poly]
sexp_of_t [Hash_set]
sexp_of_t [Fqueue]
sexp_of_t [Force_once]
sexp_of_t [Float_intf.S.Terse]
sexp_of_t [Float_intf.S.Sign]
sexp_of_t [Float_intf.S.Class]
sexp_of_t [Flags_intf.S]
sexp_of_t [Exn]
sexp_of_t [Doubly_linked.Elt]
sexp_of_t [Doubly_linked]
sexp_of_t [Dequeue]
sexp_of_t [Date.Stable.V1]
sexp_of_t [Date]
sexp_of_t [Weak]
sexp_of_t [Unix.Mman.Mcl_flags]
sexp_of_t [Unix.Scheduler.Policy]
sexp_of_t [Unix.Utsname]
sexp_of_t [Unix.Resource_usage]
sexp_of_t [Unix.RLimit]
sexp_of_t [Unix.IOVec]
sexp_of_t [Unix.Terminal_io]
sexp_of_t [Unix.Service]
sexp_of_t [Unix.Protocol]
sexp_of_t [Unix.Host]
sexp_of_t [Unix.Cidr]
sexp_of_t [Unix.Inet_addr]
sexp_of_t [Unix.Protocol_family]
sexp_of_t [Unix.Group]
sexp_of_t [Unix.Passwd]
sexp_of_t [Unix.Select_fds]
sexp_of_t [Unix.Process_info]
sexp_of_t [Unix.Open_flags]
sexp_of_t [Unix.Exit_or_signal_or_stop]
sexp_of_t [Unix.Exit_or_signal]
sexp_of_t [Unix.Exit]
sexp_of_t [Unix.File_descr]
sexp_of_t [String]
sexp_of_t [Stack]
sexp_of_t [Sexp.Sexp_maybe]
sexp_of_t [Sexp]
sexp_of_t [Core_set_intf.S.Tree]
sexp_of_t [Core_set_intf.S]
sexp_of_t [Set.Tree]
sexp_of_t [Set.Poly.Tree]
sexp_of_t [Set.Poly]
sexp_of_t [Queue]
sexp_of_t [Core_map_intf.S.Tree]
sexp_of_t [Core_map_intf.S]
sexp_of_t [Map.Tree]
sexp_of_t [Map.Poly.Tree]
sexp_of_t [Map.Poly]
sexp_of_t [List.Assoc]
sexp_of_t [List]
sexp_of_t [Lazy]
sexp_of_t [Core_hashtbl_intf.S]
sexp_of_t [Core_hashtbl_intf.Key]
sexp_of_t [Hashtbl.Poly]
sexp_of_t [Hashtbl]
sexp_of_t [Gc.Control]
sexp_of_t [Gc.Stat]
sexp_of_t [Char]
sexp_of_t [Array]
sexp_of_t [Constrained_float.S]
sexp_of_t [Comparator.Pre_binable]
sexp_of_t [Comparator.Pre]
sexp_of_t [Commutative_group.S]
sexp_of_t [Byte_units.Measure]
sexp_of_t [Byte_units]
sexp_of_t [Bucket.S]
sexp_of_t [Bucket.Contents]
sexp_of_t [Bucket.Make]
sexp_of_t [Bounded_int_table.With_key]
sexp_of_t [Bounded_int_table]
sexp_of_t [Bool]
sexp_of_t [Blang.Stable.V1]
sexp_of_t [Blang]
sexp_of_t [Bigstring]
sexp_of_t [Bag.Elt]
sexp_of_t [Bag]
sexp_of_t [Backtrace]
sexp_of_tcp_bool_option [Linux_ext]
sexp_of_tm [Unix]
sexp_of_wait_on [Unix]
sg [Quickcheck]
string generator
shift [Weekday]
shift t i goes forward (or backward) the specified number of weekdays
shift [Month]
shift t i goes forward (or backward) the specified number of months
shift_epoch_time [Zone]
shift_epoch_time zone [`Local | `UTC] time Takes an epoch (aka "unix") time given either in local or in UTC (as indicated in the arguments) and shifts it according to the local time regime in force in zone.
shift_left [Int_intf.S]
shift_right [Int_intf.S]
shift_right_logical [Int_intf.S]
should_print_error [Flags_intf.Make_arg]
should_print_error says whether to print an error message if there is an error in the known flags.
shutdown [Unix]
shutdown_command_of_sexp [Unix]
The type of commands for shutdown.
shutdown_connection [Unix]
``Shut down'' a connection established with UnixLabels.open_connection; that is, transmit an end-of-file condition to the server reading on the other side of the connection.
sigmask [Thread]
sigmask cmd sigs changes the set of blocked signals for the calling thread.
sign [Float_intf.S]
signal [Signal]
signal t Set the behavior of the system on receipt of a given signal.
signal [Condition]
sigpending [Signal]
sigpending () returns the set of blocked signals that are currently * pending.
sigprocmask [Signal]
sigprocmask cmd sigs changes the set of blocked signals.
sigsuspend [Signal]
sigsuspend sigs atomically sets the blocked signals to sigs and waits for * a non-ignored, non-blocked signal to be delivered.
single_write [Unix]
Same as write but ensures that all errors are reported and that no character has ever been written when an error is reported.
singleton [Core_set_intf.Creators]
singleton [Queue]
singleton [Core_map_intf.Creators]
map with one key, data pair
size [Timer]
size timer returns the number of events in a timer's heap.
skip [Bigstring_marshal]
skip ?pos buf skips the marshalled data starting at position pos.
sleep [Unix]
Stop execution for the given number of seconds.
slice [Ordered_collection_common]
slice [String]
slice s start stop gets a slice of s between start and stop.
slice [List]
slice l start stop returns a new list including elements l.(start) through l.(stop-1), normalized python-style.
slice [Array]
slice array start stop returns a fresh array including elements array.(start) through array.(stop-1) with the small tweak that the start and stop positions are normalized and a stop index of 0 means the same thing a stop index of Array.length array.
small_diff [Ofday]
snd3 [Common]
sockaddr_of_sexp [Unix]
socket [Unix]
Create a new socket in the given domain, and with the given kind.
socket_bool_option_of_sexp [Unix]
The socket options that can be consulted with UnixLabels.getsockopt and modified with UnixLabels.setsockopt.
socket_domain_of_sexp [Unix]
socket_float_option_of_sexp [Unix]
The socket options that can be consulted with UnixLabels.getsockopt_float and modified with UnixLabels.setsockopt_float.
socket_int_option_of_sexp [Unix]
The socket options that can be consulted with UnixLabels.getsockopt_int and modified with UnixLabels.setsockopt_int.
socket_type_of_sexp [Unix]
socketpair [Unix]
Create a pair of unnamed sockets, connected together.
some [Option]
some_if [Option]
sort [List]
Sort a list in increasing order according to a comparison function.
sort [Array]
sort_and_align [Arg]
Like align, except that the specification list is also sorted by key
sorted_copy [Array]
sorted_copy ar cmp returns a shallow copy of ar that is sorted.
space_overhead [Gc.Control.Fields]
space_overhead [Gc.Control]
specialize [Blang]
specialize t f partially evaluates t according to a perhaps-incomplete assignment f of the values of base propositions.
split [String.Escaping]
split s ~escape_char ~on
split [String]
split s ~on
split [Core_set_intf.Accessors]
split x set produces a triple triple where fst3 triple is the set of elements strictly less than x, snd3 triple = mem set x, and trd3 triple is the set of elements strictly larger than x.
split [Filename]
split filename returns (dirname filename, basename filename)
split [Array]
split ar splits an array of pairs into two arrays of single elements.
split_extension [Filename]
split_extension fn return the portion of the filename before the extension and the (optional) extension.
split_n [List]
split_n n [e1; ...; em] is ([e1; ...; en], [en+1; ...; em]).
split_on_chars [String.Escaping]
split_on_chars s ~on
split_on_chars [String]
split_on_chars s ~on
split_while [List]
split_while xs ~f = (take_while xs ~f, drop_while xs ~f)
sprintf [Std_internal]
sprintf [Printf]
stable_dedup [List]
stable_dedup Same as dedup but maintains the order of the list and doesn't allow compare function to be specified (otherwise, the implementation in terms of Set.t would hide a heavyweight functor instantiation at each call).
stable_dedup_list [Core_set_intf.Creators]
stable_dedup_staged [List]
stable_sort [List]
Same as sort, but guaranteed to be stable
stable_sort [Array]
stack [Unix.RLimit]
stack_limit [Gc.Control.Fields]
stack_limit [Gc.Control]
stack_size [Gc.Stat.Fields]
stack_size [Gc.Stat]
stage [Staged]
stage [Common]
See module : Staged for documentation
start_of_day [Ofday]
stat [Unix.Native_file]
Return the information for the named file.
stat [Unix]
Return the information for the named file.
stat [Gc]
Return the current values of the memory management counters in a stat record.
stats_of_sexp [Unix.Native_file]
stats_of_sexp [Unix]
The informations returned by the UnixLabels.stat calls.
stderr [Out_channel]
stderr [Unix]
File descriptor for standard standard error.
stdin [In_channel]
stdin [Unix]
File descriptor for standard input.
stdout [Out_channel]
stdout [Unix]
File descriptor for standard output.
step [Command.Spec]
combinator for patching up how parameters are obtained or presented
stime [Unix.Resource_usage.Fields]
stime [Unix.Resource_usage]
stop [Signal]
Stop Stop
strftime [Unix]
Convert a date and time, specified by the tm argument, into a formatted string.
strict_add [Hash_set_intf.Accessors]
strict_add_exn [Hash_set_intf.Accessors]
strict_remove [Hash_set_intf.Accessors]
strict_remove_exn [Hash_set_intf.Accessors]
string [Command.Spec]
string_bigstring [Make_substring.Blit]
string_kind [Unix.IOVec]
string_of_float [Common]
string_string [Make_substring.Blit]
strip [Type_equal.Injective2]
strip [Type_equal.Injective]
strip [String]
strip ?drop s returns a string with consecutive chars satisfying drop (by default white space, e.g.
strptime [Unix]
Given a format string, convert a corresponding string to a date and time See 'man strptime' for format options.
sub [Time_internal.T]
sub [Time]
sub t s subtracts the span s from time t and returns the resulting time.
sub [Ofday]
sub [Float_intf.S]
sub [String]
sub [List]
sub pos len l is the len-element sublist of l, starting at pos.
sub [Array]
sub [Bigstring]
sub ?pos ?len bstr
sub [Bigbuffer]
Bigbuffer.sub b off len returns (a copy of) the substring of the current contents of the buffer b starting at offset off of length len bytes.
sub_shared [Bigstring]
sub_shared ?pos ?len bstr
subset [Core_set_intf.Accessors]
succ [Int_intf.S]
suffix [Substring_intf.S]
suffix [Make_substring.F]
suffix [String]
suffix s n returns the longest suffix of s of length less than or equal to n
summary [Command.Deprecated]
sun [Weekday]
swap [Tuple.T2]
swap [Ref]
swap t1 t2 swaps the values in t1 and t2.
swap [Array]
swap arr i j swaps the value at index i with that at index j.
swap [Array_permute]
sym [Type_equal]
symlink [Unix]
symlink source dest creates the file dest as a symbolic link to the file source.
symmetric_diff [Core_map_intf.Accessors]
symmetric_diff t1 t2 ~data_equal returns a list of changes between t1 and t2.
sync [Unix.Open_flags]
sync [Unix]
Synchronize all filesystem buffers with disk.
synchronize [Mutex0]
synchronize [Mutex]
synchronize f creates a mutex and returns a new function that is identical to f except that the mutex is held during its execution.
sys_behavior_of_sexp [Signal]
The default behaviour of the system if these signals trickle to the top level of a program.
sysconf [Unix]
sysconf_of_sexp [Unix]
System configuration
sysinfo [Linux_ext.Sysinfo]
sysname [Unix.Utsname]
system [Unix]
Execute the given command, wait until it terminates, and return its termination status.

T
t2 [Command.Spec]
t3 [Command.Spec]
t4 [Command.Spec]
t_of_sexp [Time]
t_of_sexp [Weekday]
t_of_sexp [Uuid]
t_of_sexp [Unique_id_intf.Id]
t_of_sexp [Tuple.Hashable_sexpable]
t_of_sexp [Tuple.Comparable_sexpable]
t_of_sexp [Tuple.T3]
t_of_sexp [Tuple.T2]
t_of_sexp [Stable_unit_test_intf.Unordered_container_arg]
t_of_sexp [Stable_containers.Map.V1]
t_of_sexp [Stable_containers.Hash_set.V1]
t_of_sexp [Stable_containers.Hashtbl.V1]
t_of_sexp [Stable_containers.Set.V1]
t_of_sexp [Zone.Stable.V1]
t_of_sexp [Weekday.Stable.V1]
t_of_sexp [User_and_group.Stable.V1]
t_of_sexp [Time.Stable.V1]
t_of_sexp [String_id.Stable.V1]
t_of_sexp [Span.Stable.V1]
t_of_sexp [Span.Parts]
t_of_sexp [Span]
t_of_sexp [Source_code_position0]
t_of_sexp [Source_code_position]
t_of_sexp [Signal]
t_of_sexp [Sexpable.S3]
t_of_sexp [Sexpable.S2]
t_of_sexp [Sexpable.S1]
t_of_sexp [Sexpable.Of_stringable]
t_of_sexp [Sexpable.Of_sexpable]
t_of_sexp [Set_once]
t_of_sexp [Stable_unit_test_intf.Arg]
t_of_sexp [Result.Stable.V1]
t_of_sexp [Result]
t_of_sexp [Ref]
t_of_sexp [Piecewise_linear_intf.Value]
t_of_sexp [Piecewise_linear_intf.Key]
t_of_sexp [Piecewise_linear_intf.S]
t_of_sexp [Pid]
t_of_sexp [Or_error]
t_of_sexp [Ordering]
t_of_sexp [Option]
t_of_sexp [Ofday.Stable.V1]
t_of_sexp [Ofday]
t_of_sexp [Nothing0]
t_of_sexp [Nothing.Stable.V1]
t_of_sexp [Month.Stable.V1]
t_of_sexp [Month]
t_of_sexp [Linux_ext.Priority]
t_of_sexp [Linux_ext.Timerfd.Clock]
t_of_sexp [Linux_ext.Timerfd]
t_of_sexp [Linux_ext.Sysinfo]
t_of_sexp [Int_intf.S]
t_of_sexp [Interval_intf.S.Set]
t_of_sexp [Interval_intf.S]
t_of_sexp [Interval_intf.S1.Set]
t_of_sexp [Interval_intf.S1]
t_of_sexp [Interval.Stable.V1.Ofday]
t_of_sexp [Interval.Stable.V1.Int]
t_of_sexp [Interval.Stable.V1.Float]
t_of_sexp [Sexpable.S]
t_of_sexp [Info]
t_of_sexp [Identifiable.S]
t_of_sexp [Host_and_port.Stable.V1]
t_of_sexp [Hash_set_intf.S]
t_of_sexp [Hash_set.Poly]
t_of_sexp [Fqueue]
t_of_sexp [Float_intf.S.Terse]
t_of_sexp [Float_intf.S.Sign]
t_of_sexp [Float_intf.S.Class]
t_of_sexp [Doubly_linked]
t_of_sexp [Dequeue]
t_of_sexp [Date.Stable.V1]
t_of_sexp [Date]
t_of_sexp [Unix.Mman.Mcl_flags]
t_of_sexp [Unix.Scheduler.Policy]
t_of_sexp [Unix.Utsname]
t_of_sexp [Unix.Resource_usage]
t_of_sexp [Unix.RLimit]
t_of_sexp [Unix.IOVec]
t_of_sexp [Unix.Service]
t_of_sexp [Unix.Protocol]
t_of_sexp [Unix.Cidr]
t_of_sexp [Unix.Inet_addr]
t_of_sexp [Unix.Protocol_family]
t_of_sexp [Unix.Passwd]
t_of_sexp [Unix.Process_info]
t_of_sexp [Unix.Exit_or_signal_or_stop]
t_of_sexp [Unix.Exit_or_signal]
t_of_sexp [Unix.Exit]
t_of_sexp [Unix.File_descr]
t_of_sexp [String]
t_of_sexp [Stack]
t_of_sexp [Sexp.Sexp_maybe]
t_of_sexp [Sexp]
t_of_sexp [Core_set_intf.S.Tree]
t_of_sexp [Core_set_intf.S]
t_of_sexp [Set.Poly.Tree]
t_of_sexp [Set.Poly]
t_of_sexp [Queue]
t_of_sexp [Core_map_intf.S.Tree]
t_of_sexp [Core_map_intf.S]
t_of_sexp [Map.Poly.Tree]
t_of_sexp [Map.Poly]
t_of_sexp [List.Assoc]
t_of_sexp [List]
t_of_sexp [Lazy]
t_of_sexp [Core_hashtbl_intf.S]
t_of_sexp [Core_hashtbl_intf.Key]
t_of_sexp [Hashtbl.Poly]
t_of_sexp [Gc.Control]
t_of_sexp [Gc.Stat]
t_of_sexp [Char]
t_of_sexp [Array]
t_of_sexp [Constrained_float.S]
t_of_sexp [Comparator.Pre_binable]
t_of_sexp [Comparator.Pre]
t_of_sexp [Commutative_group.S]
t_of_sexp [Byte_units.Measure]
t_of_sexp [Byte_units]
t_of_sexp [Bucket.S]
t_of_sexp [Bucket.Contents]
t_of_sexp [Bucket.Make]
t_of_sexp [Bounded_int_table.With_key]
t_of_sexp [Bool]
t_of_sexp [Blang.Stable.V1]
t_of_sexp [Blang]
t_of_sexp [Bigstring]
t_of_sexp_abs [Time]
t_of_sexp_abs sexp as t_of_sexp, but demands that sexp indicate the timezone the time is expressed in.
tag [Or_error]
tag t string is Result.map_error t ~f:(fun e -> Error.tag e string).
tag [Info]
tag_arg [Or_error]
tag_arg [Info]
take [List]
take l n is fst (split_n n l).
take [Bucket.S]
take [Bucket.Make]
take_at_most [Bucket.S]
take_at_most [Bucket.Make]
take_back_exn [Dequeue]
take_front_exn [Dequeue]
take_while [List]
take_while l ~f returns the longest prefix of l for which f is true.
tcdrain [Unix.Terminal_io]
Waits until all output written on the given file descriptor has been transmitted.
tcflow [Unix.Terminal_io]
Suspend or restart reception or transmission of data on the given file descriptor, depending on the second argument: TCOOFF suspends output, TCOON restarts output, TCIOFF transmits a STOP character to suspend input, and TCION transmits a START character to restart input.
tcflush [Unix.Terminal_io]
Discard data written on the given file descriptor but not yet transmitted, or data received but not yet read, depending on the second argument: TCIFLUSH flushes data received but not read, TCOFLUSH flushes data written but not transmitted, and TCIOFLUSH flushes both.
tcgetattr [Unix.Terminal_io]
Return the status of the terminal referred to by the given file descriptor.
tcp_bool_option_of_sexp [Linux_ext]
tcsendbreak [Unix.Terminal_io]
Send a break condition on the given file descriptor.
tcsetattr [Unix.Terminal_io]
Set the status of the terminal referred to by the given file descriptor.
temp_dir [Filename]
temp_dir_name [Filename]
The name of the temporary directory:
temp_file [Filename]
term [Signal]
Terminate Termination
test [Binary_packing]
test_invariants [Fqueue]
test via asserts whether invariants hold
tests [Stable_unit_test_intf.Unordered_container_arg]
tests [Stable_unit_test_intf.Arg]
tg [Quickcheck]
triple generator
threads_have_been_created [Thread]
true iff Thread.create has ever been called, even if there is currently only one running thread.
thu [Weekday]
time [Unix]
Return the current time since 00:00:00 GMT, Jan.
time_span [Command.Spec]
timedlock [Mutex]
timedlock mtx timeout like lock, but takes a timeout parameter.
timedwait [Condition]
timedwait cond mtx timeout waits on condition variable cond with mutex mtx until either the condition is signalled, or until timeout expires.
timegm [Unix]
Convert a UTC time in a tm record to a time in seconds
times [Unix]
Return the execution times of the process.
tl [List]
tl_exn [List]
Return the given list without its first element.
tm_of_sexp [Unix]
The type representing wallclock time and calendar date.
to_alist [Core_map_intf.Accessors]
creates association list from map.
to_alist [Core_hashtbl_intf.Accessors]
Returns the list of all (key,data) pairs for given hashtable.
to_alist [Bounded_int_table]
to_array [Hash_queue.Make]
to_array [Queue]
to_array [Container.Generic_phantom]
to_array [Container.Generic]
to_array [Container.S1_phantom]
to_array [Container.S1]
to_array [Container.S0_phantom]
to_array [Container.S0]
to_array [Container.Make]
to_bigstring [Substring_intf.S]
to_bigstring [Make_substring.F]
to_bigstring [Binable0]
to_bigstring [Binable]
to_caml_int [Signal]
to_date [Time]
to_date_ofday [Time]
to_day [Span]
to_epoch [Time]
to_epoch t returns the number of seconds since Jan 1, 1970 00:00:00 in UTC
to_exn [Info]
to_filename_string [Time]
to_filename_string t converts t to string with format YYYY-MM-DD_HH-MM-SS.mmm which is suitable for using in filenames
to_float [Floatable.S]
to_float [Int64]
to_hr [Span]
to_int [Weekday]
to_int t returns an int in 0,1,...6.
to_int [Pid]
to_int [Month]
to_int t returns an int in 1,2,...12.
to_int [Linux_ext.Priority]
to_int [Float_intf.S]
to_int [Unix.File_descr]
to_int [Nativeint]
to_int [Int64]
to_int [Int63]
to_int [Int32]
to_int [Int]
to_int [Char]
Return the ASCII code of the argument.
to_int32 [Nativeint]
to_int32 [Int64]
to_int32 [Int32]
to_int32 [Int]
to_int32_exn [Int_intf.S]
to_int32_exn [Nativeint]
to_int64 [Int_intf.S]
to_int64 [Float_intf.S]
to_int_exn [Intable.S]
to_int_exn [Flags_intf.S]
to_int_exn [Nativeint]
to_knots [Piecewise_linear_intf.S]
to_list [Hash_queue.Make]
to_list [Fqueue]
to_list t returns a list of the elements in t in order from least-recently-added (at the head) to most-recently added (at the tail).
to_list [Unix.Resource_usage.Fields]
to_list [Queue]
to_list [Gc.Control.Fields]
to_list [Gc.Stat.Fields]
to_list [Container.Generic_phantom]
to_list [Container.Generic]
to_list [Container.S1_phantom]
to_list [Container.S1]
to_list [Container.S0_phantom]
to_list [Container.S0]
to_list [Container.Make]
to_list_rev [String]
Returns the reversed list of characters contained in a list.
to_local_date [Time]
to_local_date_ofday [Time]
to_local_ofday [Time]
to_localized_string [Time]
to_localized_string time zone returns a string representation of time in the given zone in the form like "2008-11-18 15:34:56.123".
to_millisec_string [Ofday]
with milliseconds
to_min [Span]
to_ms [Span]
to_nativeint [Nativeint]
to_nativeint [Int64]
to_nativeint [Int32]
to_nativeint [Int]
to_nativeint_exn [Int_intf.S]
to_ns [Span]
to_ofday [Time]
to_parts [Span]
to_parts [Ofday]
to_poly [Interval_intf.S.Set]
to_poly [Interval_intf.S]
to_sec [Span]
to_sec_string [Time]
to_sec_string t Same as to_string, but without milliseconds
to_sec_string [Ofday]
trailing milliseconds are trimmed
to_sexp_hum [Source_code_position0]
to_sexp_hum [Source_code_position]
to_short_string [Span]
to_short_string t pretty-prints approximate time span using no more than five characters if the span is positive, and six if the span is negative.
to_span_since_start_of_day [Ofday]
to_string [Span]
to_string [Signal]
to_string t returns a human-readable name: "sigabrt", "sigalrm", ...
to_string [Sexpable.To_stringable]
to_string [Substring_intf.S]
to_string [Make_substring.F]
to_string [Int_set]
to_string [Stringable.S]
to_string [Exn]
to_string [Unix.Inet_addr]
Return the printable representation of the given Internet address.
to_string [Printexc]
to_string [List]
to_string [Bin_prot.Writer]
to_string [Binable]
to_string [Bigstring]
to_string ?pos ?len bstr
to_string [Backtrace]
to_string_abs [Time]
to_string_abs ?zone t returns a string that represents an absolute time, rather than a local time with an assumed time zone.
to_string_american [Date]
to_string_deprecated [Time]
to_string_deprecated returns a string in the old format
to_string_fix_proto [Time]
to_string_hum [Int_intf.S]
to_string_hum [Int_conversions.Make]
to_string_hum [Info]
might be an expensive operation
to_string_hum [Float_intf.S]
Pretty print float, for example to_string_hum ~decimals:3 1234.1999 = "1_234.200" to_string_hum ~decimals:3 ~strip_zero:true 1234.1999 = "1_234.2" .
to_string_hum [Unix.Exit_or_signal_or_stop]
to_string_hum [Unix.Exit_or_signal]
to_string_hum [Unix.Exit]
to_string_hum [Byte_units]
to_string_hum ?measure t returns a string representation of t.
to_string_iso8601_basic [Date]
to_string_mach [Exn]
to_string_trimmed [Time]
to_string_trimmed t Same as to_string, but removes trailing seconds and milliseconds if they are 0
to_string_trimmed [Ofday]
trailing seconds and subseconds are trimmed off if they are 0
to_system_int [Signal]
to_tm [Time_internal]
to_tm_utc [Time_internal]
to_tree [Core_set_intf.Accessors]
to_tree [Core_map_intf.Accessors]
to_us [Span]
today [Time.Date]
top [Heap]
top heap
top [Hash_heap.S]
top [Hash_heap.Make]
top [Fqueue]
like top_exn, but returns result optionally, without exception, Complexity: O(1)
top [Stack]
top t returns None if t is empty, otherwise it returns Some x where x is the top of t.
top_exn [Heap]
top_exn heap
top_exn [Hash_heap.S]
top_exn [Hash_heap.Make]
top_exn [Fqueue]
Like bot_exn, except returns top (least-recently enqueued element.
top_exn [Stack]
top_exn t returns the top element of t, raising Empty if t is empty.
top_heap_el [Heap]
top_heap_el heap
top_heap_el_exn [Heap]
top_heap_el_exn heap
top_heap_words [Gc.Stat.Fields]
top_heap_words [Gc.Stat]
top_with_key [Hash_heap.S]
top_with_key [Hash_heap.Make]
top_with_key_exn [Hash_heap.S]
top_with_key_exn [Hash_heap.Make]
tr [String]
tr target replacement s replaces every instance of target in s with replacement.
tr_inplace [String]
tr_inplace target replacement s destructively modifies s (in place!) replacing every instance of target in s with replacement.
trans [Type_equal]
transfer [Doubly_linked]
transfer ~src ~dst has the same behavior as iter src ~f:(insert_last dst); clear src except that it runs in constant time.
transfer [Queue]
transfer ~src ~dst adds all of the elements of src to the end of dst, then clears src.
transfer [Bag]
transfer ~src ~dst moves all of the elements from src to dst in constant time.
transfer_queue [Squeue]
Transfers all elements from the squeue to an ordinary queue.
transfer_queue_in [Squeue]
Transfers all the elements from an ordinary queue into the squeue.
transfer_queue_in_uncond [Squeue]
transfer_queue_nowait [Squeue]
Transfers all elements from the squeue to an ordinary queue.
transpose [List]
transpose m transposes the rows and columns of the matrix m, considered as either a row of column lists or (dually) a column of row lists.
transpose_exn [List]
transpose_exn transposes the rows and columns of its argument, throwing exception if the list is not rectangular.
trd3 [Common]
true_ [Blang]
trunc [Unix.Open_flags]
truncate [Unix.Native_file]
truncate [Unix]
Truncates the named file to the given size.
truncate [Common]
try_lock [Nano_mutex]
try_lock t locks t if it can immediately do so.
try_lock [Mutex0]
try_lock [Mutex]
try_lock is like lock, but always returns immediately.
try_lock_exn [Nano_mutex]
try_with [Result]
try_with [Or_error]
try_with f catches exceptions thrown by f and returns them in the Result.t as an Error.t.
try_with [Option]
try_with f returns Some x if f returns x and None if f raises an exception.
try_with_join [Or_error]
tstp [Signal]
Stop Interactive stop
ttin [Signal]
Stop Terminal read from background process
ttou [Signal]
Stop Terminal write from background process
tue [Weekday]
tune [Gc]
Adjust the specified GC parameters.
tuple [Host_and_port]
tuple2 [Type_equal]

U
ubound [Interval_intf.Gen_set]
ubound [Interval_intf.Gen]
ubound_exn [Interval_intf.Gen_set]
ubound_exn [Interval_intf.Gen]
uig [Quickcheck]
unsigned int generator (uniform random in range min_int, max_int)
umask [Unix]
Set the process creation mask, and return the previous mask.
uname [Unix]
uncapitalize [String]
unchecked_iter [Doubly_linked]
unchecked_iter t ~f behaves like iter t ~f except that f is allowed to modify t.
unchecked_iter [Bag]
unchecked_iter t ~f behaves like iter t ~f except that f is allowed to modify t.
uncurry [Tuple.T3]
uncurry [Tuple.T2]
unescape [String.Escaping]
unescape ~escape_char is defined as unescape_gen_exn ~map:[] ~escape_char
unescape_gen [String.Escaping]
unescape_gen_exn [String.Escaping]
unescape_gen_exn is the inverse operation of escape_gen_exn.
unimplemented [Or_error]
unimplemented name returns a standard error value for an unimplemented value.
unimplemented [Common]
For marking a given value as unimplemented.
union [Union_find]
union t1 t2 makes the class of t1 and the class of t2 be the same (if they are already equal, then nothing changes).
union [Core_set_intf.Accessors]
union_list [Core_set_intf.Creators]
unit [Memo]
efficient special case for argument type unit
unix_error [Unix]
unlink [Unix]
Removes the named file
unlock [Nano_mutex]
unlock t unlocks t, if the current thread holds it.
unlock [Unix.Flock_command]
unlock [Mutex]
unlock mtx unlocks mtx.
unlock_exn [Nano_mutex]
unmarshal [Bigstring_marshal]
unmarshal ?pos buf unmarshals data contained in buf starting at position pos.
unmarshal_from_sock [Bigstring_marshal]
unmarshal_from_sock ?buf sock unmarshals data from socket sock using unmarshalling buffer buf.
unmarshal_next [Bigstring_marshal]
unmarshal_next ?pos buf unmarshals data contained in buf starting at position pos.
unordered_append [List]
unpack [Unpack_buffer]
unpack t unpacks all the values that it can from t.
unpack_float [Binary_packing]
As with integers, floats can be be packed big endian or little endian, depending on the order in which the bytes of the float are layed out.
unpack_padded_fixed_string [Binary_packing]
Decode the fixed length padded string having length len from buf starting at pos.
unpack_signed_16 [Binary_packing]
The functions ending with _big_endian or _little_endian are faster than the ones with explicit byte_order argument:
unpack_signed_16_big_endian [Binary_packing]
unpack_signed_16_little_endian [Binary_packing]
unpack_signed_32 [Binary_packing]
unpack_signed_32_int [Binary_packing]
unpack_signed_32_int_big_endian [Binary_packing]
unpack_signed_32_int_little_endian [Binary_packing]
unpack_signed_64 [Binary_packing]
unpack_signed_64_big_endian [Binary_packing]
unpack_signed_64_int [Binary_packing]
unpack_signed_64_little_endian [Binary_packing]
unpack_signed_8 [Binary_packing]
unpack_unsigned_16 [Binary_packing]
unpack_unsigned_16_big_endian [Binary_packing]
unpack_unsigned_16_little_endian [Binary_packing]
unpack_unsigned_32_int [Binary_packing]
unpack_unsigned_32_int_big_endian [Binary_packing]
unpack_unsigned_32_int_little_endian [Binary_packing]
unpack_unsigned_8 [Binary_packing]
unreachable_code [Nothing]
Because there are no values of type Nothing.t, a piece of code that has a value of type Nothing.t must be unreachable.
unsafe_blit [Bigstring]
unsafe_blit ~src ~src_pos ~dst ~dst_pos ~len similar to Bigstring.blit, but does not perform any bounds checks.
unsafe_blit_bigstring_string [Bigstring]
unsafe_blit_bigstring_string ~src ~src_pos ~dst ~dst_pos ~len similar to Bigstring.blit_bigstring_string, but does not perform any bounds checks.
unsafe_blit_string_bigstring [Bigstring]
unsafe_blit_string_bigstring ~src ~src_pos ~dst ~dst_pos ~len similar to Bigstring.blit_string_bigstring, but does not perform any bounds checks.
unsafe_destroy [Bigstring]
unsafe_destroy bstr destroys the bigstring by deallocating its associated data or, if memory-mapped, unmapping the corresponding file, and setting all dimensions to zero.
unsafe_float_blit [Array]
unsafe_get [Array]
Unsafe version of get.
unsafe_get_int16_be [Bigstring]
unsafe_get_int16_le [Bigstring]
unsafe_get_int32_be [Bigstring]
unsafe_get_int32_le [Bigstring]
unsafe_get_int32_t_be [Bigstring]
unsafe_get_int32_t_le [Bigstring]
unsafe_get_int64_be_exn [Bigstring]
unsafe_get_int64_le_exn [Bigstring]
unsafe_get_int64_t_be [Bigstring]
unsafe_get_int64_t_le [Bigstring]
unsafe_get_uint16_be [Bigstring]
unsafe_get_uint16_le [Bigstring]
unsafe_input [Bigstring]
unsafe_input ~min_len ic ~pos ~len bstr similar to Bigstring.input, but does not perform any bounds checks.
unsafe_input_value [In_channel]
unsafe_int_blit [Array]
unsafe_of_int [Char]
unsafe_output [Bigstring]
unsafe_output ~min_len oc ~pos ~len bstr similar to Bigstring.output, but does not perform any bounds checks.
unsafe_read [Bigstring]
unsafe_read ~min_len fd ~pos ~len bstr similar to Bigstring.read, but does not perform any bounds checks.
unsafe_read_assume_fd_is_nonblocking [Bigstring]
unsafe_read_assume_fd_is_nonblocking fd ~pos ~len bstr similar to Bigstring.read_assume_fd_is_nonblocking, but does not perform any bounds checks.
unsafe_really_recv [Bigstring]
unsafe_really_recv sock ~pos ~len bstr similar to Bigstring.really_recv, but does not perform any bounds checks.
unsafe_really_send_no_sigpipe [Bigstring]
unsafe_really_send_no_sigpipe sock ~pos ~len bstr similar to Bigstring.send, but does not perform any bounds checks.
unsafe_really_write [Bigstring]
unsafe_really_write fd ~pos ~len bstr similar to Bigstring.write, but does not perform any bounds checks.
unsafe_send_nonblocking_no_sigpipe [Bigstring]
unsafe_send_nonblocking_no_sigpipe sock ~pos ~len bstr similar to Bigstring.send_nonblocking_no_sigpipe, but does not perform any bounds checks.
unsafe_sendmsg_nonblocking_no_sigpipe [Bigstring]
unsafe_sendmsg_nonblocking_no_sigpipe fd iovecs count similar to Bigstring.sendmsg_nonblocking_no_sigpipe, but does not perform any bounds checks.
unsafe_set [Array]
Unsafe version of set.
unsafe_set_int16_be [Bigstring]
unsafe_set_int16_le [Bigstring]
unsafe_set_int32_be [Bigstring]
unsafe_set_int32_le [Bigstring]
unsafe_set_int32_t_be [Bigstring]
unsafe_set_int32_t_le [Bigstring]
unsafe_set_int64_be [Bigstring]
unsafe_set_int64_le [Bigstring]
unsafe_set_int64_t_be [Bigstring]
unsafe_set_int64_t_le [Bigstring]
unsafe_set_uint16_be [Bigstring]
unsafe_set_uint16_le [Bigstring]
unsafe_write [Bigstring]
unsafe_write fd ~pos ~len bstr similar to Bigstring.write, but does not perform any bounds checks.
unsafe_write_assume_fd_is_nonblocking [Bigstring]
unsafe_write_assume_fd_is_nonblocking fd ~pos ~len bstr similar to Bigstring.write_assume_fd_is_nonblocking, but does not perform any bounds checks.
unsafe_writev [Bigstring]
unsafe_writev fd iovecs count similar to Bigstring.writev, but does not perform any bounds checks.
unsetenv [Unix]
unsetenv name deletes the variable name from the environment.
unstage [Staged]
unstage [Common]
until_empty [Stack]
until_empty t f repeatedly pops an element v off of t and runs f v until t becomes empty.
until_empty [Bag]
until_empty t f repeatedly removes a value v from t and runs f v, continuing until t is empty.
unzip [List]
Transform a list of pairs into a pair of lists: unzip [(a1,b1); ...; (an,bn)] is ([a1; ...; an], [b1; ...; bn]).
update [Heap]
update heap_el el updates heap_el with element el in its associated heap.
update_broadcast [Mutex0]
update_broadcast [Mutex]
update_broadcast mtx cnd ~f updates some state within a critical section protected by mutex mtx using function f and broadcasts condition variable cnd after finishing.
update_signal [Mutex0]
update_signal [Mutex]
update_signal mtx cnd ~f updates some state within a critical section protected by mutex mtx using function f and signals condition variable cnd after finishing.
uppercase [String]
uppercase [Char]
Convert the given character to its equivalent uppercase character.
usage [Arg]
Arg.usage speclist usage_msg prints to standard error an error message that includes the list of valid options.
usage_string [Arg]
Returns the message that would have been printed by Arg.usage, if provided with the same parameters.
user [User_and_group]
usr1 [Signal]
Terminate Application-defined signal 1
usr2 [Signal]
Terminate Application-defined signal 2
utc [Zone]
utc the UTC time zone.
utc_offset [Time]
utime [Unix.Resource_usage.Fields]
utime [Unix.Resource_usage]
utimes [Unix]
Set the last access time (second arg) and last modification time (third arg) for a file.
uw [Common]
Option handling

V
value [Option]
value None ~default = default value (Some x) ~default = x
value [Heap_block]
value t returns the value that is physically equal to t
value [Doubly_linked.Elt]
value [Bag.Elt]
value_exn [Option]
value_exn (Some x) = x.
value_map [Option]
value_map t ~f ~default is equivalent to value (map t ~f) ~default, except that it is slightly faster since it avoids creating the intermediate option.
values [Blang]
values t forms the list containing every v for which Base v is a subexpression of t
verbose [Gc.Control.Fields]
verbose [Gc.Control]
version [Unix.Utsname]
version [Command.Deprecated]
virtual_memory [Unix.RLimit]
volatile_contents [Bigbuffer]
Return the actual underlying bigstring used by this bigbuffer.
vtalrm [Signal]
Terminate Timeout in virtual time

W
wait [Linux_ext.Epoll]
wait t ~timeout blocks until at least one file descriptor in t is ready for one of the events it is being watched for, or timeout passes.
wait [Unix]
wait [Condition]
wait_nohang [Unix]
wait_nohang_untraced [Unix]
wait_not_empty [Squeue]
wait_not_empty sq Waits for something to be available.
wait_on_of_sexp [Unix]
wait_read [Thread]
See Thread.wait_write.
wait_signal [Thread]
wait_signal sigs suspends the execution of the calling thread until the process receives one of the signals specified in the list sigs.
wait_timed_read [Thread]
See Thread.wait_timed_write.
wait_timed_write [Thread]
Same as Thread.wait_read and Thread.wait_write, but wait for at most the amount of time given as second argument (in seconds).
wait_untraced [Unix]
wait_write [Thread]
Suspend the execution of the calling thread until at least one character is available for reading (Thread.wait_read) or one character can be written without blocking (wait_write) on the given Unix file descriptor.
waitpid [Unix]
waitpid pid waits for child process pid to terminate, and returns its exit status.
waitpid_exn [Unix]
wed [Weekday]
weekdays_between [Date]
with_file [Out_channel]
with_file [In_channel]
with_file ~f fname executes ~f on the open channel from fname, and closes it afterwards.
with_file [Unix]
with_file file ~mode ~perm ~f opens file, and applies f to the resulting file descriptor.
with_return [With_return]
with_return [Common]
word_size [Word_size]
Returns the word size of this program, not necessarily of the OS
word_size [Sys]
Size of one word on the machine currently executing the Caml program, in bits: 32 or 64.
wordexp [Unix]
words [Byte_units]
wrap [Command.Spec]
combinator for defining a class of commands with common behavior
write [Unix]
write fd buff ofs len writes len characters to descriptor fd, taking them from string buff, starting at position ofs in string buff.
write [Bigstring]
write fd ?pos ?len bstr writes len bytes in bigstring bstr starting at position pos to file descriptor fd.
write_all [Out_channel]
write_all file data writes all data to the named file.
write_assume_fd_is_nonblocking [Unix]
write_assume_fd_is_nonblocking fd ?pos ?len buf calls the system call write ASSUMING THAT IT IS NOT GOING TO BLOCK.
write_assume_fd_is_nonblocking [Bigstring]
write_assume_fd_is_nonblocking fd ?pos ?len bstr writes len bytes in bigstring bstr starting at position pos to file descriptor fd without yielding to other OCaml-threads.
write_lines [Out_channel]
write_lines file lines works like output_lines, except that the output is sent to the named file.
writev [Unix]
writev fd ?count iovecs like Unix.writev_assume_fd_is_nonblocking, but does not require the descriptor to not block.
writev [Bigstring]
writev fd ?count iovecs writes count iovecs of bigstrings to file descriptor fd.
writev_assume_fd_is_nonblocking [Unix]
writev_assume_fd_is_nonblocking fd ?count iovecs calls the system call writev ASSUMING THAT IT IS NOT GOING TO BLOCK using count I/O-vectors iovecs.
writev_assume_fd_is_nonblocking [Bigstring]
writev_assume_fd_is_nonblocking fd ?count iovecs writes count iovecs of bigstrings to file descriptor fd without yielding to other OCaml-threads.
wronly [Unix.Open_flags]

Y
year [Date]
yield [Thread]
Re-schedule the calling thread without suspending it.

Z
zero [Span]
zero [Signal]
zero [Int_intf.S]
zero [Float_intf.S]
zero [Commutative_group.S]
zero [Bucket.Contents]
zip [List]
Transform a pair of lists into an (optional) list of pairs: zip [a1; ...; an] [b1; ...; bn] is [(a1,b1); ...; (an,bn)].
zip_exn [List]