|
( * ) [Stdlib] |
|
( ** ) [Stdlib] |
|
( *. ) [Stdlib] |
Floating-point multiplication.
|
(!) [Stdlib] |
!r returns the current contents of reference r .
|
(!=) [Stdlib] |
|
(&&) [Stdlib] |
|
(&&) [Bool] |
e0 && e1 is the lazy boolean conjunction of expressions e0 and e1 .
|
(+) [Stdlib] |
|
(+.) [Stdlib] |
|
(-) [Stdlib] |
|
(-.) [Stdlib] |
Floating-point subtraction.
|
(/) [Stdlib] |
|
(/.) [Stdlib] |
|
(:=) [Stdlib] |
r := a stores the value of a in reference r .
|
(<) [Stdlib] |
|
(<=) [Stdlib] |
|
(<>) [Stdlib] |
|
(=) [Stdlib] |
e1 = e2 tests for structural equality of e1 and e2 .
|
(==) [Stdlib] |
e1 == e2 tests for physical equality of e1 and e2 .
|
(>) [Stdlib] |
|
(>=) [Stdlib] |
Structural ordering functions.
|
(@) [Stdlib] |
l0 @ l1 appends l1 to l0 .
|
(@@) [Stdlib] |
Application operator: g @@ f @@ x is exactly equivalent to
g (f (x)) .
|
(^) [Stdlib] |
|
(^^) [Stdlib] |
f1 ^^ f2 catenates format strings f1 and f2 .
|
(asr) [Stdlib] |
n asr m shifts n to the right by m bits.
|
(land) [Stdlib] |
|
(lor) [Stdlib] |
|
(lsl) [Stdlib] |
n lsl m shifts n to the left by m bits.
|
(lsr) [Stdlib] |
n lsr m shifts n to the right by m bits.
|
(lxor) [Stdlib] |
Bitwise logical exclusive or.
|
(mod) [Stdlib] |
|
(|>) [Stdlib] |
Reverse-application operator: x |> f |> g is exactly equivalent
to g (f (x)) .
|
(||) [Stdlib] |
|
(||) [Bool] |
e0 || e1 is the lazy boolean disjunction of expressions e0 and e1 .
|
(~+) [Stdlib] |
|
(~+.) [Stdlib] |
|
(~-) [Stdlib] |
|
(~-.) [Stdlib] |
|
__FILE__ [Stdlib] |
__FILE__ returns the name of the file currently being
parsed by the compiler.
|
__FUNCTION__ [Stdlib] |
__FUNCTION__ returns the name of the current function or method, including
any enclosing modules or classes.
|
__LINE_OF__ [Stdlib] |
__LINE_OF__ expr returns a pair (line, expr) , where line is the
line number at which the expression expr appears in the file
currently being parsed by the compiler.
|
__LINE__ [Stdlib] |
__LINE__ returns the line number at which this expression
appears in the file currently being parsed by the compiler.
|
__LOC_OF__ [Stdlib] |
__LOC_OF__ expr returns a pair (loc, expr) where loc is the
location of expr in the file currently being parsed by the
compiler, with the standard error format of OCaml: "File %S, line
%d, characters %d-%d".
|
__LOC__ [Stdlib] |
__LOC__ returns the location at which this expression appears in
the file currently being parsed by the compiler, with the standard
error format of OCaml: "File %S, line %d, characters %d-%d".
|
__MODULE__ [Stdlib] |
__MODULE__ returns the module name of the file being
parsed by the compiler.
|
__POS_OF__ [Stdlib] |
__POS_OF__ expr returns a pair (loc,expr) , where loc is a
tuple (file,lnum,cnum,enum) corresponding to the location at
which the expression expr appears in the file currently being
parsed by the compiler.
|
__POS__ [Stdlib] |
__POS__ returns a tuple (file,lnum,cnum,enum) , corresponding
to the location at which this expression appears in the file
currently being parsed by the compiler.
|
_exit [UnixLabels] |
Terminate the calling process immediately, returning the given
status code to the operating system: usually 0 to indicate no
errors, and a small positive integer to indicate failure.
|
_exit [Unix] |
Terminate the calling process immediately, returning the given
status code to the operating system: usually 0 to indicate no
errors, and a small positive integer to indicate failure.
|
A |
abs [Stdlib] |
abs x is the absolute value of x .
|
abs [Nativeint] |
abs x is the absolute value of x .
|
abs [Int64] |
abs x is the absolute value of x .
|
abs [Int32] |
abs x is the absolute value of x .
|
abs [Int] |
abs x is the absolute value of x .
|
abs [Float] |
abs f returns the absolute value of f .
|
abs_float [Stdlib] |
abs_float f returns the absolute value of f .
|
abstract_tag [Obj] |
|
accept [UnixLabels] |
Accept connections on the given socket.
|
accept [Unix] |
Accept connections on the given socket.
|
access [UnixLabels] |
Check that the process has the given permissions over the named file.
|
access [Unix] |
Check that the process has the given permissions over the named file.
|
acos [Stdlib] |
|
acos [Float] |
|
acosh [Stdlib] |
|
acosh [Float] |
|
acquire [Semaphore.Binary] |
acquire s blocks the calling thread until the semaphore s
has value 1 (is available), then atomically sets it to 0
and returns.
|
acquire [Semaphore.Counting] |
acquire s blocks the calling thread until the value of semaphore s
is not zero, then atomically decrements the value of s and returns.
|
adapt_filename [Dynlink] |
In bytecode, the identity function.
|
add [Weak.S] |
|
add [Set.S] |
add x s returns a set containing all elements of s ,
plus x .
|
add [Queue] |
add x q adds the element x at the end of the queue q .
|
add [Nativeint] |
|
add [MoreLabels.Set.S] |
add x s returns a set containing all elements of s ,
plus x .
|
add [MoreLabels.Map.S] |
add ~key ~data m returns a map containing the same bindings as
m , plus a binding of key to data .
|
add [MoreLabels.Hashtbl.SeededS] |
|
add [MoreLabels.Hashtbl.S] |
|
add [MoreLabels.Hashtbl] |
Hashtbl.add tbl ~key ~data adds a binding of key to data
in table tbl .
|
add [Map.S] |
add key data m returns a map containing the same bindings as
m , plus a binding of key to data .
|
add [Int64] |
|
add [Int32] |
|
add [Int] |
add x y is the addition x + y .
|
add [Hashtbl.SeededS] |
|
add [Hashtbl.S] |
|
add [Hashtbl] |
Hashtbl.add tbl key data adds a binding of key to data
in table tbl .
|
add [Float] |
|
add [Ephemeron.Kn.Bucket] |
Add an ephemeron to the bucket.
|
add [Ephemeron.K2.Bucket] |
Add an ephemeron to the bucket.
|
add [Ephemeron.K1.Bucket] |
Add an ephemeron to the bucket.
|
add [Ephemeron.SeededS] |
|
add [Ephemeron.S] |
|
add [Complex] |
|
add_buffer [Buffer] |
add_buffer b1 b2 appends the current contents of buffer b2
at the end of buffer b1 .
|
add_bytes [Buffer] |
add_bytes b s appends the byte sequence s at the end of buffer b .
|
add_channel [Buffer] |
add_channel b ic n reads at most n characters from the
input channel ic and stores them at the end of buffer b .
|
add_char [Buffer] |
add_char b c appends the character c at the end of buffer b .
|
add_in_char_set [CamlinternalFormat] |
|
add_initializer [CamlinternalOO] |
|
add_int16_be [Buffer] |
add_int16_be b i appends a binary big-endian signed 16-bit
integer i to b .
|
add_int16_le [Buffer] |
add_int16_le b i appends a binary little-endian signed 16-bit
integer i to b .
|
add_int16_ne [Buffer] |
add_int16_ne b i appends a binary native-endian signed 16-bit
integer i to b .
|
add_int32_be [Buffer] |
add_int32_be b i appends a binary big-endian 32-bit integer
i to b .
|
add_int32_le [Buffer] |
add_int32_le b i appends a binary little-endian 32-bit integer
i to b .
|
add_int32_ne [Buffer] |
add_int32_ne b i appends a binary native-endian 32-bit integer
i to b .
|
add_int64_be [Buffer] |
add_int64_be b i appends a binary big-endian 64-bit integer
i to b .
|
add_int64_le [Buffer] |
add_int64_ne b i appends a binary little-endian 64-bit integer
i to b .
|
add_int64_ne [Buffer] |
add_int64_ne b i appends a binary native-endian 64-bit integer
i to b .
|
add_int8 [Buffer] |
add_int8 b i appends a binary signed 8-bit integer i to
b .
|
add_last [Dynarray] |
add_last a x adds the element x at the end of the array a .
|
add_offset [Obj] |
|
add_seq [Stack] |
Add the elements from the sequence on the top of the stack.
|
add_seq [Set.S] |
Add the given elements to the set, in order.
|
add_seq [Queue] |
Add the elements from a sequence to the end of the queue.
|
add_seq [MoreLabels.Set.S] |
Add the given elements to the set, in order.
|
add_seq [MoreLabels.Map.S] |
Add the given bindings to the map, in order.
|
add_seq [MoreLabels.Hashtbl.SeededS] |
|
add_seq [MoreLabels.Hashtbl.S] |
|
add_seq [MoreLabels.Hashtbl] |
|
add_seq [Map.S] |
Add the given bindings to the map, in order.
|
add_seq [Hashtbl.SeededS] |
|
add_seq [Hashtbl.S] |
|
add_seq [Hashtbl] |
|
add_seq [Ephemeron.SeededS] |
|
add_seq [Ephemeron.S] |
|
add_seq [Buffer] |
|
add_string [Buffer] |
add_string b s appends the string s at the end of buffer b .
|
add_subbytes [Buffer] |
add_subbytes b s ofs len takes len characters from offset
ofs in byte sequence s and appends them at the end of buffer b .
|
add_substitute [Buffer] |
add_substitute b f s appends the string pattern s at the end
of buffer b with substitution.
|
add_substring [Buffer] |
add_substring b s ofs len takes len characters from offset
ofs in string s and appends them at the end of buffer b .
|
add_symbolic_output_item [Format] |
add_symbolic_output_item sob itm adds item itm to buffer sob .
|
add_to_list [MoreLabels.Map.S] |
add_to_list ~key ~data m is m with key mapped to l such
that l is data :: Map.find key m if key was bound in
m and [v] otherwise.
|
add_to_list [Map.S] |
add_to_list key data m is m with key mapped to l such
that l is data :: Map.find key m if key was bound in
m and [v] otherwise.
|
add_uint16_be [Buffer] |
add_uint16_be b i appends a binary big-endian unsigned 16-bit
integer i to b .
|
add_uint16_le [Buffer] |
add_uint16_le b i appends a binary little-endian unsigned 16-bit
integer i to b .
|
add_uint16_ne [Buffer] |
add_uint16_ne b i appends a binary native-endian unsigned 16-bit
integer i to b .
|
add_uint8 [Buffer] |
add_uint8 b i appends a binary unsigned 8-bit integer i to
b .
|
add_user_event [Runtime_events.Callbacks] |
add_user_event ty callback t extends t to additionally subscribe to
user events of type ty .
|
add_utf_16be_uchar [Buffer] |
add_utf_16be_uchar b u appends the
UTF-16BE encoding of u
at the end of buffer b .
|
add_utf_16le_uchar [Buffer] |
add_utf_16le_uchar b u appends the
UTF-16LE encoding of u
at the end of buffer b .
|
add_utf_8_uchar [Buffer] |
add_utf_8_uchar b u appends the
UTF-8 encoding of u at the end of buffer b .
|
alarm [UnixLabels] |
Schedule a SIGALRM signal after the given number of seconds.
|
alarm [Unix] |
Schedule a SIGALRM signal after the given number of seconds.
|
align [Arg] |
Align the documentation strings by inserting spaces at the first alignment
separator (tab or, if tab is not found, space), according to the length of
the keyword.
|
all_units [Dynlink] |
Return the list of compilation units that form the main program together
with those that have been dynamically loaded via loadfile (and not via
loadfile_private ).
|
allocated_bytes [Gc] |
Return the number of bytes allocated by this domain and potentially
a previous domain.
|
allow_only [Dynlink] |
allow_only units sets the list of allowed units to be the intersection
of the existing allowed units and the given list of units.
|
allow_unsafe_modules [Dynlink] |
Govern whether unsafe object files are allowed to be
dynamically linked.
|
always [Event] |
always v returns an event that is always ready for
synchronization.
|
append [Seq] |
append xs ys is the concatenation of the sequences xs and ys .
|
append [ListLabels] |
append l0 l1 appends l1 to l0 .
|
append [List] |
append l0 l1 appends l1 to l0 .
|
append [Float.ArrayLabels] |
append v1 v2 returns a fresh floatarray containing the
concatenation of the floatarrays v1 and v2 .
|
append [Float.Array] |
append v1 v2 returns a fresh floatarray containing the
concatenation of the floatarrays v1 and v2 .
|
append [Dynarray] |
append a b is like append_array a b ,
but b is itself a dynamic array instead of a fixed-size array.
|
append [ArrayLabels] |
append v1 v2 returns a fresh array containing the
concatenation of the arrays v1 and v2 .
|
append [Array] |
append v1 v2 returns a fresh array containing the
concatenation of the arrays v1 and v2 .
|
append_array [Dynarray] |
append_array a b adds all elements of b at the end of a ,
in the order they appear in b .
|
append_iter [Dynarray] |
append_iter a iter x adds each element of x to the end of a .
|
append_list [Dynarray] |
|
append_seq [Dynarray] |
|
arg [Complex] |
|
argv [Sys] |
The command line arguments given to the process.
|
array0_of_genarray [Bigarray] |
Return the zero-dimensional Bigarray corresponding to the given
generic Bigarray.
|
array1_of_genarray [Bigarray] |
Return the one-dimensional Bigarray corresponding to the given
generic Bigarray.
|
array2_of_genarray [Bigarray] |
Return the two-dimensional Bigarray corresponding to the given
generic Bigarray.
|
array3_of_genarray [Bigarray] |
Return the three-dimensional Bigarray corresponding to the given
generic Bigarray.
|
asin [Stdlib] |
|
asin [Float] |
|
asinh [Stdlib] |
|
asinh [Float] |
|
asprintf [Format] |
Same as printf above, but instead of printing on a formatter,
returns a string containing the result of formatting the arguments.
|
assoc [ListLabels] |
assoc a l returns the value associated with key a in the list of
pairs l .
|
assoc [List] |
assoc a l returns the value associated with key a in the list of
pairs l .
|
assoc_opt [ListLabels] |
assoc_opt a l returns the value associated with key a in the list of
pairs l .
|
assoc_opt [List] |
assoc_opt a l returns the value associated with key a in the list of
pairs l .
|
assq [ListLabels] |
Same as ListLabels.assoc , but uses physical equality instead of
structural equality to compare keys.
|
assq [List] |
Same as List.assoc , but uses physical equality instead of
structural equality to compare keys.
|
assq_opt [ListLabels] |
Same as ListLabels.assoc_opt , but uses physical equality instead of
structural equality to compare keys.
|
assq_opt [List] |
Same as List.assoc_opt , but uses physical equality instead of
structural equality to compare keys.
|
at_exit [Stdlib] |
Register the given function to be called at program termination
time.
|
at_exit [Domain] |
at_exit f registers f to be called when the current domain exits.
|
atan [Stdlib] |
|
atan [Float] |
|
atan2 [Stdlib] |
atan2 y x returns the arc tangent of y /. x .
|
atan2 [Float] |
atan2 y x returns the arc tangent of y /. x .
|
atanh [Stdlib] |
|
atanh [Float] |
|
B |
backend_type [Sys] |
Backend type currently executing the OCaml program.
|
backtrace_slots [Printexc] |
Returns the slots of a raw backtrace, or None if none of them
contain useful information.
|
backtrace_slots_of_raw_entry [Printexc] |
Returns the slots of a single raw backtrace entry, or None if this
entry lacks debug information.
|
backtrace_status [Printexc] |
Printexc.backtrace_status() returns true if exception
backtraces are currently recorded, false if not.
|
basename [Filename] |
Split a file name into directory name / base file name.
|
before_first_spawn [Domain] |
before_first_spawn f registers f to be called before the first domain
is spawned by the program.
|
beginning_of_input [Scanf.Scanning] |
Scanning.beginning_of_input ic tests the beginning of input condition
of the given Scanf.Scanning.in_channel formatted input channel.
|
big_endian [Sys] |
Whether the machine currently executing the Caml program is big-endian.
|
bind [UnixLabels] |
Bind a socket to an address.
|
bind [Unix] |
Bind a socket to an address.
|
bind [Result] |
bind r f is f v if r is Ok v and r if r is Error _ .
|
bind [Option] |
bind o f is f v if o is Some v and None if o is None .
|
bindings [MoreLabels.Map.S] |
Return the list of all bindings of the given map.
|
bindings [Map.S] |
Return the list of all bindings of the given map.
|
bits [Random.State] |
|
bits [Random] |
Return 30 random bits in a nonnegative integer.
|
bits32 [Random.State] |
|
bits32 [Random] |
|
bits64 [Random.State] |
|
bits64 [Random] |
|
bits_of_float [Int64] |
Return the internal representation of the given float according
to the IEEE 754 floating-point 'double format' bit layout.
|
bits_of_float [Int32] |
Return the internal representation of the given float according
to the IEEE 754 floating-point 'single format' bit layout.
|
blit [Weak] |
Weak.blit ar1 off1 ar2 off2 len copies len weak pointers
from ar1 (starting at off1 ) to ar2 (starting at off2 ).
|
blit [String] |
|
blit [StringLabels] |
|
blit [Float.ArrayLabels] |
blit ~src ~src_pos ~dst ~dst_pos ~len copies len elements
from floatarray src , starting at element number src_pos ,
to floatarray dst , starting at element number dst_pos .
|
blit [Float.Array] |
blit src src_pos dst dst_pos len copies len elements
from floatarray src , starting at element number src_pos ,
to floatarray dst , starting at element number dst_pos .
|
blit [BytesLabels] |
blit ~src ~src_pos ~dst ~dst_pos ~len copies len bytes from byte
sequence src , starting at index src_pos , to byte sequence dst ,
starting at index dst_pos .
|
blit [Bytes] |
blit src src_pos dst dst_pos len copies len bytes from byte
sequence src , starting at index src_pos , to byte sequence dst ,
starting at index dst_pos .
|
blit [Buffer] |
Buffer.blit src srcoff dst dstoff len copies len characters from
the current contents of the buffer src , starting at offset srcoff
to dst , starting at character dstoff .
|
blit [Bigarray.Array3] |
Copy the first Bigarray to the second Bigarray.
|
blit [Bigarray.Array2] |
Copy the first Bigarray to the second Bigarray.
|
blit [Bigarray.Array1] |
Copy the first Bigarray to the second Bigarray.
|
blit [Bigarray.Array0] |
Copy the first Bigarray to the second Bigarray.
|
blit [Bigarray.Genarray] |
Copy all elements of a Bigarray in another Bigarray.
|
blit [ArrayLabels] |
blit ~src ~src_pos ~dst ~dst_pos ~len copies len elements
from array src , starting at element number src_pos , to array dst ,
starting at element number dst_pos .
|
blit [Array] |
blit src src_pos dst dst_pos len copies len elements
from array src , starting at element number src_pos , to array dst ,
starting at element number dst_pos .
|
blit_data [Obj.Ephemeron] |
|
blit_key [Obj.Ephemeron] |
|
blit_string [BytesLabels] |
blit_string ~src ~src_pos ~dst ~dst_pos ~len copies len bytes from
string src , starting at index src_pos , to byte sequence dst ,
starting at index dst_pos .
|
blit_string [Bytes] |
blit_string src src_pos dst dst_pos len copies len bytes from
string src , starting at index src_pos , to byte sequence dst ,
starting at index dst_pos .
|
bom [Uchar] |
|
bool [Random.State] |
|
bool [Random] |
Random.bool () returns true or false with probability 0.5 each.
|
bool_of_string [Stdlib] |
Same as bool_of_string_opt , but raise
Invalid_argument "bool_of_string" instead of returning None .
|
bool_of_string_opt [Stdlib] |
Convert the given string to a boolean.
|
bounded_full_split [Str] |
Same as Str.bounded_split_delim , but returns
the delimiters as well as the substrings contained between
delimiters.
|
bounded_split [Str] |
Same as Str.split , but splits into at most n substrings,
where n is the extra integer parameter.
|
bounded_split_delim [Str] |
Same as Str.bounded_split , but occurrences of the
delimiter at the beginning and at the end of the string are
recognized and returned as empty strings in the result.
|
bprintf [Printf] |
Same as Printf.fprintf , but instead of printing on an output channel,
append the formatted arguments to the given extensible buffer
(see module Buffer ).
|
broadcast [Condition] |
broadcast c wakes up all threads waiting on the condition
variable c .
|
bscanf [Scanf] |
|
bscanf_format [Scanf] |
bscanf_format ic fmt f reads a format string token from the formatted
input channel ic , according to the given format string fmt , and
applies f to the resulting format string value.
|
bscanf_opt [Scanf] |
Same as Scanf.bscanf , but returns None in case of scanning failure.
|
bufput_acc [CamlinternalFormat] |
|
bytes [Digest.S] |
Return the digest of the given byte sequence.
|
bytes [Digest] |
Return the digest of the given byte sequence.
|
C |
c_layout [Bigarray] |
|
capacity [Dynarray] |
capacity a is the length of a 's backing array.
|
capitalize_ascii [String] |
capitalize_ascii s is s with the first character set to
uppercase, using the US-ASCII character set.
|
capitalize_ascii [StringLabels] |
capitalize_ascii s is s with the first character set to
uppercase, using the US-ASCII character set.
|
capitalize_ascii [BytesLabels] |
Return a copy of the argument, with the first character set to uppercase,
using the US-ASCII character set.
|
capitalize_ascii [Bytes] |
Return a copy of the argument, with the first character set to uppercase,
using the US-ASCII character set.
|
cardinal [Set.S] |
Return the number of elements of a set.
|
cardinal [MoreLabels.Set.S] |
Return the number of elements of a set.
|
cardinal [MoreLabels.Map.S] |
Return the number of bindings of a map.
|
cardinal [Map.S] |
Return the number of bindings of a map.
|
cat [String] |
cat s1 s2 concatenates s1 and s2 (s1 ^ s2 ).
|
cat [StringLabels] |
cat s1 s2 concatenates s1 and s2 (s1 ^ s2 ).
|
cat [BytesLabels] |
cat s1 s2 concatenates s1 and s2 and returns the result
as a new byte sequence.
|
cat [Bytes] |
cat s1 s2 concatenates s1 and s2 and returns the result
as a new byte sequence.
|
catch [Printexc] |
Printexc.catch fn x is similar to Printexc.print , but
aborts the program with exit code 2 after printing the
uncaught exception.
|
catch_break [Sys] |
catch_break governs whether interactive interrupt (ctrl-C)
terminates the program or raises the Break exception.
|
cbrt [Float] |
|
ceil [Stdlib] |
Round above to an integer value.
|
ceil [Float] |
Round above to an integer value.
|
change_layout [Bigarray.Array3] |
Array3.change_layout a layout returns a Bigarray with the
specified layout , sharing the data with a (and hence having
the same dimensions as a ).
|
change_layout [Bigarray.Array2] |
Array2.change_layout a layout returns a Bigarray with the
specified layout , sharing the data with a (and hence having
the same dimensions as a ).
|
change_layout [Bigarray.Array1] |
Array1.change_layout a layout returns a Bigarray with the
specified layout , sharing the data with a (and hence having
the same dimension as a ).
|
change_layout [Bigarray.Array0] |
Array0.change_layout a layout returns a Bigarray with the
specified layout , sharing the data with a .
|
change_layout [Bigarray.Genarray] |
Genarray.change_layout a layout returns a Bigarray with the
specified layout , sharing the data with a (and hence having
the same dimensions as a ).
|
channel [Digest.S] |
Read characters from the channel and return their digest.
|
channel [Digest] |
If len is nonnegative, Digest.channel ic len reads len
characters from channel ic and returns their digest, or raises
End_of_file if end-of-file is reached before len characters
are read.
|
char [Bigarray] |
As shown by the types of the values above,
Bigarrays of kind float16_elt , float32_elt and float64_elt are
accessed using the OCaml type float .
|
char_of_iconv [CamlinternalFormat] |
|
char_of_int [Stdlib] |
Return the character with the given ASCII code.
|
chdir [UnixLabels] |
Change the process working directory.
|
chdir [Unix] |
Change the process working directory.
|
chdir [Sys] |
Change the current working directory of the process.
|
check [Weak] |
Weak.check ar n returns true if the n th cell of ar is
full, false if it is empty.
|
check_data [Obj.Ephemeron] |
|
check_geometry [Format] |
|
check_key [Obj.Ephemeron] |
|
check_suffix [Filename] |
check_suffix name suff returns true if the filename name
ends with the suffix suff .
|
chmod [UnixLabels] |
Change the permissions of the named file.
|
chmod [Unix] |
Change the permissions of the named file.
|
choose [Set.S] |
Return one element of the given set, or raise Not_found if
the set is empty.
|
choose [MoreLabels.Set.S] |
Return one element of the given set, or raise Not_found if
the set is empty.
|
choose [MoreLabels.Map.S] |
Return one binding of the given map, or raise Not_found if
the map is empty.
|
choose [Map.S] |
Return one binding of the given map, or raise Not_found if
the map is empty.
|
choose [Event] |
choose evl returns the event that is the alternative of
all the events in the list evl .
|
choose_opt [Set.S] |
Return one element of the given set, or None if
the set is empty.
|
choose_opt [MoreLabels.Set.S] |
Return one element of the given set, or None if
the set is empty.
|
choose_opt [MoreLabels.Map.S] |
Return one binding of the given map, or None if
the map is empty.
|
choose_opt [Map.S] |
Return one binding of the given map, or None if
the map is empty.
|
chop_extension [Filename] |
|
chop_suffix [Filename] |
chop_suffix name suff removes the suffix suff from
the filename name .
|
chop_suffix_opt [Filename] |
chop_suffix_opt ~suffix filename removes the suffix from
the filename if possible, or returns None if the
filename does not end with the suffix.
|
chown [UnixLabels] |
Change the owner uid and owner gid of the named file.
|
chown [Unix] |
Change the owner uid and owner gid of the named file.
|
chr [Char] |
Return the character with the given ASCII code.
|
chroot [UnixLabels] |
Change the process root directory.
|
chroot [Unix] |
Change the process root directory.
|
classify_float [Stdlib] |
Return the class of the given floating-point number:
normal, subnormal, zero, infinite, or not a number.
|
classify_float [Float] |
Return the class of the given floating-point number:
normal, subnormal, zero, infinite, or not a number.
|
clean [Ephemeron.SeededS] |
remove all dead bindings.
|
clean [Ephemeron.S] |
remove all dead bindings.
|
clear [Weak.S] |
Remove all elements from the table.
|
clear [Stack] |
Discard all elements from a stack.
|
clear [Queue] |
Discard all elements from a queue.
|
clear [MoreLabels.Hashtbl.SeededS] |
|
clear [MoreLabels.Hashtbl.S] |
|
clear [MoreLabels.Hashtbl] |
|
clear [Hashtbl.SeededS] |
|
clear [Hashtbl.S] |
|
clear [Hashtbl] |
|
clear [Ephemeron.Kn.Bucket] |
Remove all ephemerons from the bucket.
|
clear [Ephemeron.K2.Bucket] |
Remove all ephemerons from the bucket.
|
clear [Ephemeron.K1.Bucket] |
Remove all ephemerons from the bucket.
|
clear [Ephemeron.SeededS] |
|
clear [Ephemeron.S] |
|
clear [Dynarray] |
clear a is truncate a 0 , it removes all the elements of a .
|
clear [Buffer] |
|
clear_close_on_exec [UnixLabels] |
Clear the ``close-on-exec'' flag on the given descriptor.
|
clear_close_on_exec [Unix] |
Clear the ``close-on-exec'' flag on the given descriptor.
|
clear_nonblock [UnixLabels] |
Clear the ``non-blocking'' flag on the given descriptor.
|
clear_nonblock [Unix] |
Clear the ``non-blocking'' flag on the given descriptor.
|
clear_parser [Parsing] |
|
clear_symbolic_output_buffer [Format] |
clear_symbolic_output_buffer sob resets buffer sob .
|
close [UnixLabels] |
|
close [Unix] |
|
close [Out_channel] |
Close the given channel, flushing all buffered write operations.
|
close [In_channel] |
|
close_box [Format] |
Closes the most recently open pretty-printing box.
|
close_in [Stdlib] |
|
close_in [Scanf.Scanning] |
|
close_in_noerr [Stdlib] |
Same as close_in , but ignore all errors.
|
close_noerr [Out_channel] |
|
close_noerr [In_channel] |
|
close_out [Stdlib] |
Close the given channel, flushing all buffered write operations.
|
close_out_noerr [Stdlib] |
Same as close_out , but ignore all errors.
|
close_process [UnixLabels] |
Close channels opened by UnixLabels.open_process ,
wait for the associated command to terminate,
and return its termination status.
|
close_process [Unix] |
Close channels opened by Unix.open_process ,
wait for the associated command to terminate,
and return its termination status.
|
close_process_full [UnixLabels] |
|
close_process_full [Unix] |
Close channels opened by Unix.open_process_full ,
wait for the associated command to terminate,
and return its termination status.
|
close_process_in [UnixLabels] |
Close channels opened by UnixLabels.open_process_in ,
wait for the associated command to terminate,
and return its termination status.
|
close_process_in [Unix] |
Close channels opened by Unix.open_process_in ,
wait for the associated command to terminate,
and return its termination status.
|
close_process_out [UnixLabels] |
|
close_process_out [Unix] |
Close channels opened by Unix.open_process_out ,
wait for the associated command to terminate,
and return its termination status.
|
close_stag [Format] |
pp_close_stag ppf () closes the most recently opened semantic tag t .
|
close_tbox [Format] |
Closes the most recently opened tabulation box.
|
closedir [UnixLabels] |
Close a directory descriptor.
|
closedir [Unix] |
Close a directory descriptor.
|
closure_tag [Obj] |
|
code [Char] |
Return the ASCII code of the argument.
|
combine [ListLabels] |
Transform a pair of lists into a list of pairs:
combine [a1; ...; an] [b1; ...; bn] is
[(a1,b1); ...; (an,bn)] .
|
combine [List] |
Transform a pair of lists into a list of pairs:
combine [a1; ...; an] [b1; ...; bn] is
[(a1,b1); ...; (an,bn)] .
|
combine [ArrayLabels] |
combine [|a1; ...; an|] [|b1; ...; bn|] is [|(a1,b1); ...; (an,bn)|] .
|
combine [Array] |
combine [|a1; ...; an|] [|b1; ...; bn|] is [|(a1,b1); ...; (an,bn)|] .
|
command [Sys] |
Execute the given shell command and return its exit code.
|
compact [Gc] |
Perform a full major collection and compact the heap.
|
compare [Unit] |
|
compare [Uchar] |
compare u u' is Stdlib.compare u u' .
|
compare [String] |
compare s0 s1 sorts s0 and s1 in lexicographical order.
|
compare [Stdlib] |
compare x y returns 0 if x is equal to y ,
a negative integer if x is less than y , and a positive integer
if x is greater than y .
|
compare [StringLabels] |
compare s0 s1 sorts s0 and s1 in lexicographical order.
|
compare [Set.OrderedType] |
A total ordering function over the set elements.
|
compare [Set.S] |
Total ordering between sets.
|
compare [Seq] |
Provided the function cmp defines a preorder on elements,
compare cmp xs ys compares the sequences xs and ys
according to the lexicographic preorder.
|
compare [Result] |
compare ~ok ~error r0 r1 totally orders r0 and r1 using ok and
error to respectively compare values wrapped by Ok _ and Error _ .
|
compare [Option] |
compare cmp o0 o1 is a total order on options using cmp to compare
values wrapped by Some _ .
|
compare [Nativeint] |
The comparison function for native integers, with the same specification as
compare .
|
compare [MoreLabels.Set.OrderedType] |
A total ordering function over the set elements.
|
compare [MoreLabels.Set.S] |
Total ordering between sets.
|
compare [MoreLabels.Map.OrderedType] |
A total ordering function over the keys.
|
compare [MoreLabels.Map.S] |
Total ordering between maps.
|
compare [Map.OrderedType] |
A total ordering function over the keys.
|
compare [Map.S] |
Total ordering between maps.
|
compare [ListLabels] |
compare cmp [a1; ...; an] [b1; ...; bm] performs
a lexicographic comparison of the two input lists,
using the same 'a -> 'a -> int interface as compare :
|
compare [List] |
compare cmp [a1; ...; an] [b1; ...; bm] performs
a lexicographic comparison of the two input lists,
using the same 'a -> 'a -> int interface as compare :
|
compare [Int64] |
The comparison function for 64-bit integers, with the same specification as
compare .
|
compare [Int32] |
The comparison function for 32-bit integers, with the same specification as
compare .
|
compare [Int] |
compare x y is compare x y but more efficient.
|
compare [Float] |
compare x y returns 0 if x is equal to y , a negative integer if x
is less than y , and a positive integer if x is greater than
y .
|
compare [Either] |
compare ~left ~right e0 e1 totally orders e0 and e1 using left and
right to respectively compare values wrapped by Left _ and Right _ .
|
compare [Digest.S] |
Compare two digests, with the same specification as
compare .
|
compare [Digest] |
The comparison function for 16-byte digests, with the same
specification as compare and the implementation
shared with String.compare .
|
compare [Char] |
The comparison function for characters, with the same specification as
compare .
|
compare [BytesLabels] |
The comparison function for byte sequences, with the same
specification as compare .
|
compare [Bytes] |
The comparison function for byte sequences, with the same
specification as compare .
|
compare [Bool] |
compare b0 b1 is a total order on boolean values.
|
compare_and_set [Atomic] |
compare_and_set r seen v sets the new value of r to v only
if its current value is physically equal to seen -- the
comparison and the set occur atomically.
|
compare_length_with [ListLabels] |
Compare the length of a list to an integer.
|
compare_length_with [List] |
Compare the length of a list to an integer.
|
compare_lengths [ListLabels] |
Compare the lengths of two lists.
|
compare_lengths [List] |
Compare the lengths of two lists.
|
complex32 [Bigarray] |
|
complex64 [Bigarray] |
|
compose [Fun] |
compose f g is a function composition of applying g then f .
|
concat [String] |
concat sep ss concatenates the list of strings ss , inserting
the separator string sep between each.
|
concat [StringLabels] |
concat ~sep ss concatenates the list of strings ss , inserting
the separator string sep between each.
|
concat [Seq] |
If xss is a sequence of sequences,
then concat xss is its concatenation.
|
concat [ListLabels] |
Concatenate a list of lists.
|
concat [List] |
Concatenate a list of lists.
|
concat [Float.ArrayLabels] |
|
concat [Float.Array] |
|
concat [Filename] |
concat dir file returns a file name that designates file
file in directory dir .
|
concat [BytesLabels] |
concat ~sep sl concatenates the list of byte sequences sl ,
inserting the separator byte sequence sep between each, and
returns the result as a new byte sequence.
|
concat [Bytes] |
concat sep sl concatenates the list of byte sequences sl ,
inserting the separator byte sequence sep between each, and
returns the result as a new byte sequence.
|
concat [ArrayLabels] |
|
concat [Array] |
|
concat_fmt [CamlinternalFormatBasics] |
|
concat_fmtty [CamlinternalFormatBasics] |
|
concat_map [Seq] |
concat_map f xs is equivalent to concat (map f xs) .
|
concat_map [ListLabels] |
|
concat_map [List] |
|
conj [Complex] |
Conjugate: given the complex x + i.y , returns x - i.y .
|
connect [UnixLabels] |
Connect a socket to an address.
|
connect [Unix] |
Connect a socket to an address.
|
cons [Seq] |
cons x xs is the sequence that begins with the element x ,
followed with the sequence xs .
|
cons [ListLabels] |
|
cons [List] |
|
const [Fun] |
const c is a function that always returns the value c .
|
cont_tag [Obj] |
|
contains [String] |
|
contains [StringLabels] |
|
contains [BytesLabels] |
contains s c tests if byte c appears in s .
|
contains [Bytes] |
contains s c tests if byte c appears in s .
|
contains_from [String] |
contains_from s start c is true if and only if c appears in s
after position start .
|
contains_from [StringLabels] |
contains_from s start c is true if and only if c appears in s
after position start .
|
contains_from [BytesLabels] |
contains_from s start c tests if byte c appears in s after
position start .
|
contains_from [Bytes] |
contains_from s start c tests if byte c appears in s after
position start .
|
contents [Buffer] |
Return a copy of the current contents of the buffer.
|
continue [Effect.Deep] |
continue k x resumes the continuation k by passing x to k .
|
continue_with [Effect.Shallow] |
continue_with k v h resumes the continuation k with value v with
the handler h .
|
convert_raw_backtrace_slot [Printexc] |
Extracts the user-friendly backtrace_slot from a low-level
raw_backtrace_slot .
|
copy [CamlinternalOO] |
|
copy [Stack] |
Return a copy of the given stack.
|
copy [Random.State] |
Return a copy of the given state.
|
copy [Queue] |
Return a copy of the given queue.
|
copy [Oo] |
Oo.copy o returns a copy of object o , that is a fresh
object with the same methods and instance variables as o .
|
copy [MoreLabels.Hashtbl.SeededS] |
|
copy [MoreLabels.Hashtbl.S] |
|
copy [MoreLabels.Hashtbl] |
Return a copy of the given hashtable.
|
copy [Hashtbl.SeededS] |
|
copy [Hashtbl.S] |
|
copy [Hashtbl] |
Return a copy of the given hashtable.
|
copy [Float.ArrayLabels] |
copy a returns a copy of a , that is, a fresh floatarray
containing the same elements as a .
|
copy [Float.Array] |
copy a returns a copy of a , that is, a fresh floatarray
containing the same elements as a .
|
copy [Ephemeron.SeededS] |
|
copy [Ephemeron.S] |
|
copy [Dynarray] |
copy a is a shallow copy of a , a new array
containing the same elements as a .
|
copy [BytesLabels] |
Return a new byte sequence that contains the same bytes as the
argument.
|
copy [Bytes] |
Return a new byte sequence that contains the same bytes as the
argument.
|
copy [ArrayLabels] |
copy a returns a copy of a , that is, a fresh array
containing the same elements as a .
|
copy [Array] |
copy a returns a copy of a , that is, a fresh array
containing the same elements as a .
|
copy_sign [Float] |
copy_sign x y returns a float whose absolute value is that of x
and whose sign is that of y .
|
copysign [Stdlib] |
copysign x y returns a float whose absolute value is that of x
and whose sign is that of y .
|
cos [Stdlib] |
|
cos [Float] |
|
cosh [Stdlib] |
|
cosh [Float] |
|
count [Weak.S] |
Count the number of elements in the table.
|
counters [Gc] |
Return (minor_words, promoted_words, major_words) for the current
domain or potentially previous domains.
|
cpu_relax [Domain] |
If busy-waiting, calling cpu_relax () between iterations
will improve performance on some CPU architectures
|
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 domain.
|
create [Weak.S] |
create n creates a new empty weak hash set, of initial
size n .
|
create [Weak] |
Weak.create n returns a new weak array of length n .
|
create [Stack] |
Return a new stack, initially empty.
|
create [Runtime_events.Callbacks] |
Create a Callback that optionally subscribes to one or more runtime
events.
|
create [Queue] |
Return a new queue, initially empty.
|
create [Obj.Ephemeron] |
create n returns an ephemeron with n keys.
|
create [Mutex] |
|
create [MoreLabels.Hashtbl.SeededS] |
|
create [MoreLabels.Hashtbl.S] |
|
create [MoreLabels.Hashtbl] |
Hashtbl.create n creates a new, empty hash table, with
initial size n .
|
create [Hashtbl.SeededS] |
|
create [Hashtbl.S] |
|
create [Hashtbl] |
Hashtbl.create n creates a new, empty hash table, with
initial size n .
|
create [Float.ArrayLabels] |
create n returns a fresh floatarray of length n ,
with uninitialized data.
|
create [Float.Array] |
create n returns a fresh floatarray of length n ,
with uninitialized data.
|
create [Ephemeron.SeededS] |
|
create [Ephemeron.S] |
|
create [Dynarray] |
create () is a new, empty array.
|
create [Condition] |
create() creates and returns a new condition variable.
|
create [BytesLabels] |
create n returns a new byte sequence of length n .
|
create [Bytes] |
create n returns a new byte sequence of length n .
|
create [Buffer] |
create n returns a fresh buffer, initially empty.
|
create [Bigarray.Array3] |
Array3.create kind layout dim1 dim2 dim3 returns a new Bigarray of
three dimensions, whose size is dim1 in the first dimension,
dim2 in the second dimension, and dim3 in the third.
|
create [Bigarray.Array2] |
Array2.create kind layout dim1 dim2 returns a new Bigarray of
two dimensions, whose size is dim1 in the first dimension
and dim2 in the second dimension.
|
create [Bigarray.Array1] |
Array1.create kind layout dim returns a new Bigarray of
one dimension, whose size is dim .
|
create [Bigarray.Array0] |
Array0.create kind layout returns a new Bigarray of zero dimension.
|
create [Bigarray.Genarray] |
Genarray.create kind layout dimensions returns a new Bigarray
whose element kind is determined by the parameter kind (one of
float32 , float64 , int8_signed , etc) and whose layout is
determined by the parameter layout (one of c_layout or
fortran_layout ).
|
create_alarm [Gc] |
create_alarm f will arrange for f to be called at the end of
major GC cycles, not caused by f itself, starting with the
current cycle or the next one.
|
create_char_set [CamlinternalFormat] |
|
create_cursor [Runtime_events] |
create_cursor path_pid creates a cursor to read from an runtime_events.
|
create_float [ArrayLabels] |
create_float n returns a fresh float array of length n ,
with uninitialized data.
|
create_float [Array] |
create_float n returns a fresh float array of length n ,
with uninitialized data.
|
create_object [CamlinternalOO] |
|
create_object_and_run_initializers [CamlinternalOO] |
|
create_object_opt [CamlinternalOO] |
|
create_process [UnixLabels] |
create_process ~prog ~args ~stdin ~stdout ~stderr creates a new process
that executes the program in file prog , with arguments args .
|
create_process [Unix] |
create_process prog args stdin stdout stderr creates a new process
that executes the program in file prog , with arguments args .
|
create_process_env [UnixLabels] |
create_process_env ~prog ~args ~env ~stdin ~stdout ~stderr
works as UnixLabels.create_process , except that the extra argument
env specifies the environment passed to the program.
|
create_process_env [Unix] |
create_process_env prog args env stdin stdout stderr
works as Unix.create_process , except that the extra argument
env specifies the environment passed to the program.
|
create_table [CamlinternalOO] |
|
current [Arg] |
Position (in Sys.argv ) of the argument being processed.
|
current_dir_name [Filename] |
The conventional name for the current directory (e.g.
|
custom_tag [Obj] |
|
cycle [Seq] |
cycle xs is the infinite sequence that consists of an infinite
number of repetitions of the sequence xs .
|
cygwin [Sys] |
True if Sys.os_type = "Cygwin" .
|
D |
data_size [Marshal] |
|
decr [Stdlib] |
Decrement the integer contained in the given reference.
|
decr [Atomic] |
decr r atomically decrements the value of r by 1 .
|
default_uncaught_exception_handler [Thread] |
Thread.default_uncaught_exception_handler will print the thread's id,
exception and backtrace (if available).
|
default_uncaught_exception_handler [Printexc] |
Printexc.default_uncaught_exception_handler prints the exception and
backtrace on standard error output.
|
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 .
|
descr_of_in_channel [UnixLabels] |
Return the descriptor corresponding to an input channel.
|
descr_of_in_channel [Unix] |
Return the descriptor corresponding to an input channel.
|
descr_of_out_channel [UnixLabels] |
Return the descriptor corresponding to an output channel.
|
descr_of_out_channel [Unix] |
Return the descriptor corresponding to an output channel.
|
development_version [Sys] |
true if this is a development version, false otherwise.
|
diff [Set.S] |
Set difference: diff s1 s2 contains the elements of s1
that are not in s2 .
|
diff [MoreLabels.Set.S] |
Set difference: diff s1 s2 contains the elements of s1
that are not in s2 .
|
dim [Bigarray.Array1] |
Return the size (dimension) of the given one-dimensional
Bigarray.
|
dim1 [Bigarray.Array3] |
Return the first dimension of the given three-dimensional Bigarray.
|
dim1 [Bigarray.Array2] |
Return the first dimension of the given two-dimensional Bigarray.
|
dim2 [Bigarray.Array3] |
Return the second dimension of the given three-dimensional Bigarray.
|
dim2 [Bigarray.Array2] |
Return the second dimension of the given two-dimensional Bigarray.
|
dim3 [Bigarray.Array3] |
Return the third dimension of the given three-dimensional Bigarray.
|
dims [Bigarray.Genarray] |
Genarray.dims a returns all dimensions of the Bigarray a ,
as an array of integers of length Genarray.num_dims a .
|
dir_sep [Filename] |
The directory separator (e.g.
|
dirname [Filename] |
|
discard [Gc.Memprof] |
Discards all profiling state for a stopped profile, which
prevents any more callbacks for it.
|
discontinue [Effect.Deep] |
discontinue k e resumes the continuation k by raising the
exception e in k .
|
discontinue_with [Effect.Shallow] |
discontinue_with k e h resumes the continuation k by raising the
exception e with the handler h .
|
discontinue_with_backtrace [Effect.Shallow] |
discontinue_with k e bt h resumes the continuation k by raising the
exception e with the handler h using the raw backtrace bt as the
origin of the exception.
|
discontinue_with_backtrace [Effect.Deep] |
discontinue_with_backtrace k e bt resumes the continuation k by
raising the exception e in k using bt as the origin for the
exception.
|
disjoint [Set.S] |
Test if two sets are disjoint.
|
disjoint [MoreLabels.Set.S] |
Test if two sets are disjoint.
|
div [Nativeint] |
|
div [Int64] |
|
div [Int32] |
|
div [Int] |
div x y is the division x / y .
|
div [Float] |
|
div [Complex] |
|
domain_of_sockaddr [UnixLabels] |
Return the socket domain adequate for the given socket address.
|
domain_of_sockaddr [Unix] |
Return the socket domain adequate for the given socket address.
|
double_array_tag [Obj] |
|
double_field [Obj] |
|
double_tag [Obj] |
|
dprintf [Format] |
|
drop [Stack] |
drop s removes the topmost element in stack s ,
or raises Stack.Empty if the stack is empty.
|
drop [Seq] |
drop n xs is the sequence xs , deprived of its first n elements.
|
drop_while [Seq] |
drop_while p xs is the sequence xs , deprived of the prefix
take_while p xs .
|
dummy_class [CamlinternalOO] |
|
dummy_pos [Lexing] |
A value of type position , guaranteed to be different from any
valid position.
|
dummy_table [CamlinternalOO] |
|
dup [UnixLabels] |
Return a new file descriptor referencing the same file as
the given descriptor.
|
dup [Unix] |
Return a new file descriptor referencing the same file as
the given descriptor.
|
dup [Obj] |
|
dup2 [UnixLabels] |
dup2 ~src ~dst duplicates src to dst , closing dst if already
opened.
|
dup2 [Unix] |
dup2 src dst duplicates src to dst , closing dst if already
opened.
|
E |
elements [Set.S] |
Return the list of all elements of the given set.
|
elements [MoreLabels.Set.S] |
Return the list of all elements of the given set.
|
empty [String] |
|
empty [StringLabels] |
|
empty [Set.S] |
|
empty [Seq] |
empty is the empty sequence.
|
empty [MoreLabels.Set.S] |
|
empty [MoreLabels.Map.S] |
|
empty [Map.S] |
|
empty [BytesLabels] |
A byte sequence of size 0.
|
empty [Bytes] |
A byte sequence of size 0.
|
enable_runtime_warnings [Sys] |
Control whether the OCaml runtime system can emit warnings
on stderr.
|
end_of_input [Scanf.Scanning] |
|
ends_with [String] |
ends_with ~suffix s is true if and only if s ends with suffix .
|
ends_with [StringLabels] |
ends_with ~suffix s is true if and only if s ends with suffix .
|
ends_with [BytesLabels] |
ends_with ~suffix s is true if and only if s ends with suffix .
|
ends_with [Bytes] |
ends_with ~suffix s is true if and only if s ends with suffix .
|
ensure_capacity [Dynarray] |
ensure_capacity a n makes sure that the capacity of a
is at least n .
|
ensure_extra_capacity [Dynarray] |
ensure_extra_capacity a n is ensure_capacity a (length a + n) ,
it makes sure that a has room for n extra items.
|
environment [UnixLabels] |
Return the process environment, as an array of strings
with the format ``variable=value''.
|
environment [Unix] |
Return the process environment, as an array of strings
with the format ``variable=value''.
|
eprintf [Printf] |
|
eprintf [Format] |
Same as fprintf above, but output on get_err_formatter () .
|
epsilon [Float] |
The difference between 1.0 and the smallest exactly representable
floating-point number greater than 1.0 .
|
epsilon_float [Stdlib] |
The difference between 1.0 and the smallest exactly representable
floating-point number greater than 1.0 .
|
equal [Unit] |
|
equal [Uchar] |
|
equal [String] |
equal s0 s1 is true if and only if s0 and s1 are character-wise
equal.
|
equal [StringLabels] |
equal s0 s1 is true if and only if s0 and s1 are character-wise
equal.
|
equal [Set.S] |
equal s1 s2 tests whether the sets s1 and s2 are
equal, that is, contain equal elements.
|
equal [Seq] |
Provided the function eq defines an equality on elements,
equal eq xs ys determines whether the sequences xs and ys
are pointwise equal.
|
equal [Result] |
equal ~ok ~error r0 r1 tests equality of r0 and r1 using ok
and error to respectively compare values wrapped by Ok _ and
Error _ .
|
equal [Option] |
equal eq o0 o1 is true if and only if o0 and o1 are both None
or if they are Some v0 and Some v1 and eq v0 v1 is true .
|
equal [Nativeint] |
The equal function for native ints.
|
equal [MoreLabels.Set.S] |
equal s1 s2 tests whether the sets s1 and s2 are
equal, that is, contain equal elements.
|
equal [MoreLabels.Map.S] |
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 [MoreLabels.Hashtbl.SeededHashedType] |
The equality predicate used to compare keys.
|
equal [MoreLabels.Hashtbl.HashedType] |
The equality predicate used to compare keys.
|
equal [Map.S] |
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 [ListLabels] |
equal eq [a1; ...; an] [b1; ..; bm] holds when
the two input lists have the same length, and for each
pair of elements ai , bi at the same position we have
eq ai bi .
|
equal [List] |
equal eq [a1; ...; an] [b1; ..; bm] holds when
the two input lists have the same length, and for each
pair of elements ai , bi at the same position we have
eq ai bi .
|
equal [Int64] |
The equal function for int64s.
|
equal [Int32] |
The equal function for int32s.
|
equal [Int] |
equal x y is true if and only if x = y .
|
equal [Hashtbl.SeededHashedType] |
The equality predicate used to compare keys.
|
equal [Hashtbl.HashedType] |
The equality predicate used to compare keys.
|
equal [Float] |
The equal function for floating-point numbers, compared using Float.compare .
|
equal [Either] |
equal ~left ~right e0 e1 tests equality of e0 and e1 using left
and right to respectively compare values wrapped by Left _ and
Right _ .
|
equal [Digest.S] |
Test two digests for equality.
|
equal [Digest] |
The equal function for 16-byte digests.
|
equal [Char] |
The equal function for chars.
|
equal [BytesLabels] |
The equality function for byte sequences.
|
equal [Bytes] |
The equality function for byte sequences.
|
equal [Bool] |
equal b0 b1 is true if and only if b0 and b1 are both true
or both false .
|
erase_rel [CamlinternalFormatBasics] |
|
erf [Float] |
|
erfc [Float] |
Complementary error function (erfc x = 1 - erf x ).
|
err_formatter [Format] |
The initial domain's formatter to write to standard error.
|
error [Result] |
|
error_message [UnixLabels] |
Return a string describing the given error code.
|
error_message [Unix] |
Return a string describing the given error code.
|
error_message [Dynlink] |
Convert an error description to a printable message.
|
escaped [String] |
escaped s is s with special characters represented by escape
sequences, following the lexical conventions of OCaml.
|
escaped [StringLabels] |
escaped s is s with special characters represented by escape
sequences, following the lexical conventions of OCaml.
|
escaped [Char] |
Return a string representing the given character,
with special characters escaped following the lexical conventions
of OCaml.
|
escaped [BytesLabels] |
Return a copy of the argument, with special characters represented
by escape sequences, following the lexical conventions of OCaml.
|
escaped [Bytes] |
Return a copy of the argument, with special characters represented
by escape sequences, following the lexical conventions of OCaml.
|
establish_server [UnixLabels] |
Establish a server on the given address.
|
establish_server [Unix] |
Establish a server on the given address.
|
eventlog_pause [Gc] |
|
eventlog_resume [Gc] |
|
exchange [Atomic] |
Set a new value for the atomic reference, and return the current value.
|
executable_name [Sys] |
The name of the file containing the executable currently running.
|
execv [UnixLabels] |
execv prog args execute the program in file prog , with the arguments
args , and the current process environment.
|
execv [Unix] |
execv prog args execute the program in file prog , with the arguments
args , and the current process environment.
|
execve [UnixLabels] |
Same as UnixLabels.execv , except that the third argument provides the
environment to the program executed.
|
execve [Unix] |
Same as Unix.execv , except that the third argument provides the
environment to the program executed.
|
execvp [UnixLabels] |
|
execvp [Unix] |
Same as Unix.execv , except that
the program is searched in the path.
|
execvpe [UnixLabels] |
|
execvpe [Unix] |
Same as Unix.execve , except that
the program is searched in the path.
|
exists [String] |
exists p s checks if at least one character of s satisfies the predicate
p .
|
exists [StringLabels] |
exists p s checks if at least one character of s satisfies the predicate
p .
|
exists [Set.S] |
exists f s checks if at least one element of
the set satisfies the predicate f .
|
exists [Seq] |
exists xs p determines whether at least one element x
of the sequence xs satisfies p x .
|
exists [MoreLabels.Set.S] |
exists ~f s checks if at least one element of
the set satisfies the predicate f .
|
exists [MoreLabels.Map.S] |
exists ~f m checks if at least one binding of the map
satisfies the predicate f .
|
exists [Map.S] |
exists f m checks if at least one binding of the map
satisfies the predicate f .
|
exists [ListLabels] |
exists ~f [a1; ...; an] checks if at least one element of
the list satisfies the predicate f .
|
exists [List] |
exists f [a1; ...; an] checks if at least one element of
the list satisfies the predicate f .
|
exists [Float.ArrayLabels] |
exists f [|a1; ...; an|] checks if at least one element of
the floatarray satisfies the predicate f .
|
exists [Float.Array] |
exists f [|a1; ...; an|] checks if at least one element of
the floatarray satisfies the predicate f .
|
exists [Dynarray] |
exists f a is true if some element of a satisfies f .
|
exists [BytesLabels] |
exists p s checks if at least one character of s satisfies the predicate
p .
|
exists [Bytes] |
exists p s checks if at least one character of s satisfies the predicate
p .
|
exists [ArrayLabels] |
exists ~f [|a1; ...; an|] checks if at least one element of
the array satisfies the predicate f .
|
exists [Array] |
exists f [|a1; ...; an|] checks if at least one element of
the array satisfies the predicate f .
|
exists2 [Seq] |
exists2 p xs ys determines whether some pair (x, y) of elements
drawn synchronously from the sequences xs and ys satisfies p x y .
|
exists2 [ListLabels] |
|
exists2 [List] |
|
exists2 [ArrayLabels] |
|
exists2 [Array] |
|
exit [Thread] |
|
exit [Stdlib] |
Terminate the process, returning the given status code to the operating
system: usually 0 to indicate no errors, and a small positive integer to
indicate failure.
|
exn_slot_id [Printexc] |
Printexc.exn_slot_id returns an integer which uniquely identifies
the constructor used to create the exception value exn
(in the current runtime).
|
exn_slot_name [Printexc] |
Printexc.exn_slot_name exn returns the internal name of the constructor
used to create the exception value exn .
|
exp [Stdlib] |
|
exp [Float] |
|
exp [Complex] |
|
exp2 [Float] |
Base 2 exponential function.
|
expm1 [Stdlib] |
expm1 x computes exp x -. 1.0 , giving numerically-accurate results
even if x is close to 0.0 .
|
expm1 [Float] |
expm1 x computes exp x -. 1.0 , giving numerically-accurate results
even if x is close to 0.0 .
|
extend [BytesLabels] |
extend s ~left ~right returns a new byte sequence that contains
the bytes of s , with left uninitialized bytes prepended and
right uninitialized bytes appended to it.
|
extend [Bytes] |
extend s left right returns a new byte sequence that contains
the bytes of s , with left uninitialized bytes prepended and
right uninitialized bytes appended to it.
|
extension [Filename] |
extension name is the shortest suffix ext of name0 where:
|
F |
failwith [Stdlib] |
Raise exception Failure with the given string.
|
fast_sort [ListLabels] |
|
fast_sort [List] |
|
fast_sort [Float.ArrayLabels] |
|
fast_sort [Float.Array] |
|
fast_sort [ArrayLabels] |
|
fast_sort [Array] |
|
fchmod [UnixLabels] |
Change the permissions of an opened file.
|
fchmod [Unix] |
Change the permissions of an opened file.
|
fchown [UnixLabels] |
Change the owner uid and owner gid of an opened file.
|
fchown [Unix] |
Change the owner uid and owner gid of an opened file.
|
fetch_and_add [Atomic] |
fetch_and_add r n atomically increments the value of r by n ,
and returns the current value (before the increment).
|
fiber [Effect.Shallow] |
fiber f constructs a continuation that runs the computation f .
|
field [Obj] |
|
file [Digest.S] |
Return the digest of the file whose name is given.
|
file [Digest] |
Return the digest of the file whose name is given.
|
file_exists [Sys] |
Test if a file with the given name exists.
|
fill [Weak] |
Weak.fill ar ofs len el sets to el all pointers of ar from
ofs to ofs + len - 1 .
|
fill [Float.ArrayLabels] |
fill a ~pos ~len x modifies the floatarray a in place,
storing x in elements number pos to pos + len - 1 .
|
fill [Float.Array] |
fill a pos len x modifies the floatarray a in place,
storing x in elements number pos to pos + len - 1 .
|
fill [BytesLabels] |
fill s ~pos ~len c modifies s in place, replacing len
characters with c , starting at pos .
|
fill [Bytes] |
fill s pos len c modifies s in place, replacing len
characters with c , starting at pos .
|
fill [Bigarray.Array3] |
Fill the given Bigarray with the given value.
|
fill [Bigarray.Array2] |
Fill the given Bigarray with the given value.
|
fill [Bigarray.Array1] |
Fill the given Bigarray with the given value.
|
fill [Bigarray.Array0] |
Fill the given Bigarray with the given value.
|
fill [Bigarray.Genarray] |
Set all elements of a Bigarray to a given value.
|
fill [ArrayLabels] |
fill a ~pos ~len x modifies the array a in place,
storing x in elements number pos to pos + len - 1 .
|
fill [Array] |
fill a pos len x modifies the array a in place,
storing x in elements number pos to pos + len - 1 .
|
filter [Set.S] |
filter f s returns the set of all elements in s
that satisfy predicate f .
|
filter [Seq] |
filter p xs is the sequence of the elements x of xs
that satisfy p x .
|
filter [MoreLabels.Set.S] |
filter ~f s returns the set of all elements in s
that satisfy predicate f .
|
filter [MoreLabels.Map.S] |
filter ~f m returns the map with all the bindings in m
that satisfy predicate p .
|
filter [Map.S] |
filter f m returns the map with all the bindings in m
that satisfy predicate p .
|
filter [ListLabels] |
filter ~f l returns all the elements of the list l
that satisfy the predicate f .
|
filter [List] |
filter f l returns all the elements of the list l
that satisfy the predicate f .
|
filter [Dynarray] |
filter f a is a new array of all the elements of a that satisfy f .
|
filter_map [Set.S] |
filter_map f s returns the set of all v such that
f x = Some v for some element x of s .
|
filter_map [Seq] |
filter_map f xs is the sequence of the elements y such that
f x = Some y , where x ranges over xs .
|
filter_map [MoreLabels.Set.S] |
filter_map ~f s returns the set of all v such that
f x = Some v for some element x of s .
|
filter_map [MoreLabels.Map.S] |
filter_map ~f m applies the function f to every binding of
m , and builds a map from the results.
|
filter_map [Map.S] |
filter_map f m applies the function f to every binding of
m , and builds a map from the results.
|
filter_map [ListLabels] |
filter_map ~f l applies f to every element of l , filters
out the None elements and returns the list of the arguments of
the Some elements.
|
filter_map [List] |
filter_map f l applies f to every element of l , filters
out the None elements and returns the list of the arguments of
the Some elements.
|
filter_map [Dynarray] |
filter_map f a is a new array of elements y
such that f x is Some y for an element x of a .
|
filter_map_inplace [MoreLabels.Hashtbl.SeededS] |
|
filter_map_inplace [MoreLabels.Hashtbl.S] |
|
filter_map_inplace [MoreLabels.Hashtbl] |
Hashtbl.filter_map_inplace ~f tbl applies f to all bindings in
table tbl and update each binding depending on the result of
f .
|
filter_map_inplace [Hashtbl.SeededS] |
|
filter_map_inplace [Hashtbl.S] |
|
filter_map_inplace [Hashtbl] |
Hashtbl.filter_map_inplace f tbl applies f to all bindings in
table tbl and update each binding depending on the result of
f .
|
filteri [ListLabels] |
Same as ListLabels.filter , but the predicate is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
filteri [List] |
Same as List.filter , but the predicate is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
finalise [Gc] |
finalise f v registers f as a finalisation function for v .
|
finalise_last [Gc] |
same as Gc.finalise except the value is not given as argument.
|
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 [Weak.S] |
find t x returns an instance of x found in t .
|
find [Set.S] |
find x s returns the element of s equal to x (according
to Ord.compare ), or raise Not_found if no such element
exists.
|
find [Seq] |
find p xs returns Some x , where x is the first element of the
sequence xs that satisfies p x , if there is such an element.
|
find [MoreLabels.Set.S] |
find x s returns the element of s equal to x (according
to Ord.compare ), or raise Not_found if no such element
exists.
|
find [MoreLabels.Map.S] |
find x m returns the current value of x in m ,
or raises Not_found if no binding for x exists.
|
find [MoreLabels.Hashtbl.SeededS] |
|
find [MoreLabels.Hashtbl.S] |
|
find [MoreLabels.Hashtbl] |
Hashtbl.find tbl x returns the current binding of x in tbl ,
or raises Not_found if no such binding exists.
|
find [Map.S] |
find x m returns the current value of x in m ,
or raises Not_found if no binding for x exists.
|
find [ListLabels] |
find ~f l returns the first element of the list l
that satisfies the predicate f .
|
find [List] |
find f l returns the first element of the list l
that satisfies the predicate f .
|
find [Hashtbl.SeededS] |
|
find [Hashtbl.S] |
|
find [Hashtbl] |
Hashtbl.find tbl x returns the current binding of x in tbl ,
or raises Not_found if no such binding exists.
|
find [Ephemeron.Kn.Bucket] |
Returns the data of the most-recently added ephemeron with the
given keys, or None if there is no such ephemeron.
|
find [Ephemeron.K2.Bucket] |
Returns the data of the most-recently added ephemeron with the
given keys, or None if there is no such ephemeron.
|
find [Ephemeron.K1.Bucket] |
Returns the data of the most-recently added ephemeron with the
given key, or None if there is no such ephemeron.
|
find [Ephemeron.SeededS] |
|
find [Ephemeron.S] |
|
find_all [Weak.S] |
find_all t x returns a list of all the instances of x
found in t .
|
find_all [MoreLabels.Hashtbl.SeededS] |
|
find_all [MoreLabels.Hashtbl.S] |
|
find_all [MoreLabels.Hashtbl] |
Hashtbl.find_all tbl x returns the list of all data
associated with x in tbl .
|
find_all [ListLabels] |
|
find_all [List] |
|
find_all [Hashtbl.SeededS] |
|
find_all [Hashtbl.S] |
|
find_all [Hashtbl] |
Hashtbl.find_all tbl x returns the list of all data
associated with x in tbl .
|
find_all [Ephemeron.SeededS] |
|
find_all [Ephemeron.S] |
|
find_first [Set.S] |
find_first f s , where f is a monotonically increasing function,
returns the lowest element e of s such that f e ,
or raises Not_found if no such element exists.
|
find_first [MoreLabels.Set.S] |
find_first ~f s , where f is a monotonically increasing function,
returns the lowest element e of s such that f e ,
or raises Not_found if no such element exists.
|
find_first [MoreLabels.Map.S] |
find_first ~f m , where f is a monotonically increasing function,
returns the binding of m with the lowest key k such that f k ,
or raises Not_found if no such key exists.
|
find_first [Map.S] |
find_first f m , where f is a monotonically increasing function,
returns the binding of m with the lowest key k such that f k ,
or raises Not_found if no such key exists.
|
find_first_opt [Set.S] |
find_first_opt f s , where f is a monotonically increasing
function, returns an option containing the lowest element e of s
such that f e , or None if no such element exists.
|
find_first_opt [MoreLabels.Set.S] |
find_first_opt ~f s , where f is a monotonically increasing
function, returns an option containing the lowest element e of s
such that f e , or None if no such element exists.
|
find_first_opt [MoreLabels.Map.S] |
find_first_opt ~f m , where f is a monotonically increasing
function, returns an option containing the binding of m with the
lowest key k such that f k , or None if no such key exists.
|
find_first_opt [Map.S] |
find_first_opt f m , where f is a monotonically increasing
function, returns an option containing the binding of m with the
lowest key k such that f k , or None if no such key exists.
|
find_index [Seq] |
find_index p xs returns Some i , where i is the index of the first
element of the sequence xs that satisfies p x , if there is such an
element.
|
find_index [ListLabels] |
find_index ~f xs returns Some i , where i is the index of the first
element of the list xs that satisfies f x , if there is such an element.
|
find_index [List] |
find_index f xs returns Some i , where i is the index of the first
element of the list xs that satisfies f x , if there is such an element.
|
find_index [Float.ArrayLabels] |
find_index ~f a returns Some i , where i is the index of the first
element of the array a that satisfies f x , if there is such an
element.
|
find_index [Float.Array] |
find_index f a returns Some i , where i is the index of the first
element of the array a that satisfies f x , if there is such an
element.
|
find_index [ArrayLabels] |
find_index ~f a returns Some i , where i is the index of the first
element of the array a that satisfies f x , if there is such an
element.
|
find_index [Array] |
find_index f a returns Some i , where i is the index of the first
element of the array a that satisfies f x , if there is such an
element.
|
find_last [Set.S] |
find_last f s , where f is a monotonically decreasing function,
returns the highest element e of s such that f e ,
or raises Not_found if no such element exists.
|
find_last [MoreLabels.Set.S] |
find_last ~f s , where f is a monotonically decreasing function,
returns the highest element e of s such that f e ,
or raises Not_found if no such element exists.
|
find_last [MoreLabels.Map.S] |
find_last ~f m , where f is a monotonically decreasing function,
returns the binding of m with the highest key k such that f k ,
or raises Not_found if no such key exists.
|
find_last [Map.S] |
find_last f m , where f is a monotonically decreasing function,
returns the binding of m with the highest key k such that f k ,
or raises Not_found if no such key exists.
|
find_last [Dynarray] |
find_last a is None if a is empty
and Some (get_last a) otherwise.
|
find_last_opt [Set.S] |
find_last_opt f s , where f is a monotonically decreasing
function, returns an option containing the highest element e of s
such that f e , or None if no such element exists.
|
find_last_opt [MoreLabels.Set.S] |
find_last_opt ~f s , where f is a monotonically decreasing
function, returns an option containing the highest element e of s
such that f e , or None if no such element exists.
|
find_last_opt [MoreLabels.Map.S] |
find_last_opt ~f m , where f is a monotonically decreasing
function, returns an option containing the binding of m with
the highest key k such that f k , or None if no such key
exists.
|
find_last_opt [Map.S] |
find_last_opt f m , where f is a monotonically decreasing
function, returns an option containing the binding of m with
the highest key k such that f k , or None if no such key
exists.
|
find_left [Either] |
find_left (Left v) is Some v , find_left (Right _) is None
|
find_map [Seq] |
find_map f xs returns Some y , where x is the first element of the
sequence xs such that f x = Some _ , if there is such an element,
and where y is defined by f x = Some y .
|
find_map [ListLabels] |
find_map ~f l applies f to the elements of l in order,
and returns the first result of the form Some v , or None
if none exist.
|
find_map [List] |
find_map f l applies f to the elements of l in order,
and returns the first result of the form Some v , or None
if none exist.
|
find_map [Float.ArrayLabels] |
|
find_map [Float.Array] |
|
find_map [ArrayLabels] |
find_map ~f a applies f to the elements of a in order, and returns the
first result of the form Some v , or None if none exist.
|
find_map [Array] |
find_map f a applies f to the elements of a in order, and returns the
first result of the form Some v , or None if none exist.
|
find_mapi [Seq] |
Same as find_map , but the predicate is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
find_mapi [ListLabels] |
Same as find_map , but the predicate is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
find_mapi [List] |
Same as find_map , but the predicate is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
find_mapi [Float.ArrayLabels] |
Same as find_map , but the predicate is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
find_mapi [Float.Array] |
Same as find_map , but the predicate is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
find_mapi [ArrayLabels] |
Same as find_map , but the predicate is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
find_mapi [Array] |
Same as find_map , but the predicate is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
find_opt [Weak.S] |
find_opt t x returns an instance of x found in t
or None if there is no such element.
|
find_opt [Set.S] |
find_opt x s returns the element of s equal to x (according
to Ord.compare ), or None if no such element
exists.
|
find_opt [MoreLabels.Set.S] |
find_opt x s returns the element of s equal to x (according
to Ord.compare ), or None if no such element
exists.
|
find_opt [MoreLabels.Map.S] |
find_opt x m returns Some v if the current value of x
in m is v , or None if no binding for x exists.
|
find_opt [MoreLabels.Hashtbl.SeededS] |
|
find_opt [MoreLabels.Hashtbl.S] |
|
find_opt [MoreLabels.Hashtbl] |
Hashtbl.find_opt tbl x returns the current binding of x in tbl ,
or None if no such binding exists.
|
find_opt [Map.S] |
find_opt x m returns Some v if the current value of x
in m is v , or None if no binding for x exists.
|
find_opt [ListLabels] |
find ~f l returns the first element of the list l
that satisfies the predicate f .
|
find_opt [List] |
find f l returns the first element of the list l
that satisfies the predicate f .
|
find_opt [Hashtbl.SeededS] |
|
find_opt [Hashtbl.S] |
|
find_opt [Hashtbl] |
Hashtbl.find_opt tbl x returns the current binding of x in tbl ,
or None if no such binding exists.
|
find_opt [Float.ArrayLabels] |
|
find_opt [Float.Array] |
|
find_opt [Ephemeron.SeededS] |
|
find_opt [Ephemeron.S] |
|
find_opt [ArrayLabels] |
find_opt ~f a returns the first element of the array a that satisfies
the predicate f , or None if there is no value that satisfies f in the
array a .
|
find_opt [Array] |
find_opt f a returns the first element of the array a that satisfies
the predicate f , or None if there is no value that satisfies f in the
array a .
|
find_right [Either] |
find_right (Right v) is Some v , find_right (Left _) is None
|
first_chars [Str] |
first_chars s n returns the first n characters of s .
|
first_non_constant_constructor_tag [Obj] |
|
fit_capacity [Dynarray] |
fit_capacity a reallocates a backing array if necessary, so that
the resulting capacity is exactly length a , with no additional
empty space at the end.
|
flat_map [Seq] |
flat_map f xs is equivalent to concat (map f xs) .
|
flatten [ListLabels] |
|
flatten [List] |
|
flip [Fun] |
flip f reverses the argument order of the binary function
f .
|
float [Stdlib] |
|
float [Random.State] |
|
float [Random] |
Random.float bound returns a random floating-point number
between 0 and bound (inclusive).
|
float16 [Bigarray] |
|
float32 [Bigarray] |
|
float64 [Bigarray] |
|
float_of_bits [Int64] |
Return the floating-point number whose internal representation,
according to the IEEE 754 floating-point 'double format' bit layout,
is the given int64 .
|
float_of_bits [Int32] |
Return the floating-point number whose internal representation,
according to the IEEE 754 floating-point 'single format' bit layout,
is the given int32 .
|
float_of_int [Stdlib] |
Convert an integer to floating-point.
|
float_of_string [Stdlib] |
|
float_of_string_opt [Stdlib] |
Convert the given string to a float.
|
floor [Stdlib] |
Round below to an integer value.
|
floor [Float] |
Round below to an integer value.
|
flush [Stdlib] |
Flush the buffer associated with the given output channel,
performing all pending writes on that channel.
|
flush [Out_channel] |
Flush the buffer associated with the given output channel, performing all
pending writes on that channel.
|
flush_all [Stdlib] |
Flush all open output channels; ignore errors.
|
flush_all [Out_channel] |
Flush all open output channels; ignore errors.
|
flush_input [Lexing] |
Discard the contents of the buffer and reset the current
position to 0.
|
flush_str_formatter [Format] |
Returns the material printed with str_formatter of the current domain,
flushes the formatter and resets the corresponding buffer.
|
flush_symbolic_output_buffer [Format] |
flush_symbolic_output_buffer sob returns the contents of buffer
sob and resets buffer sob .
|
fma [Float] |
fma x y z returns x * y + z , with a best effort for computing
this expression with a single rounding, using either hardware
instructions (providing full IEEE compliance) or a software
emulation.
|
fmt_ebb_of_string [CamlinternalFormat] |
|
fold [Weak.S] |
fold f t init computes (f d1 (... (f dN init))) where
d1 ... dN are the elements of t in some unspecified order.
|
fold [Stack] |
fold f accu s is (f (... (f (f accu x1) x2) ...) xn)
where x1 is the top of the stack, x2 the second element,
and xn the bottom element.
|
fold [Set.S] |
fold f s init computes (f xN ... (f x2 (f x1 init))...) ,
where x1 ... xN are the elements of s , in increasing order.
|
fold [Result] |
fold ~ok ~error r is ok v if r is Ok v and error e if r
is Error e .
|
fold [Queue] |
fold f accu q is equivalent to List.fold_left f accu l ,
where l is the list of q 's elements.
|
fold [Option] |
fold ~none ~some o is none if o is None and some v if o is
Some v .
|
fold [MoreLabels.Set.S] |
fold ~f s init computes (f xN ... (f x2 (f x1 init))...) ,
where x1 ... xN are the elements of s , in increasing order.
|
fold [MoreLabels.Map.S] |
fold ~f m ~init computes (f kN dN ... (f k1 d1 init)...) ,
where k1 ... kN are the keys of all bindings in m
(in increasing order), and d1 ... dN are the associated data.
|
fold [MoreLabels.Hashtbl.SeededS] |
|
fold [MoreLabels.Hashtbl.S] |
|
fold [MoreLabels.Hashtbl] |
Hashtbl.fold ~f tbl ~init computes
(f kN dN ... (f k1 d1 init)...) ,
where k1 ... kN are the keys of all bindings in tbl ,
and d1 ... dN are the associated values.
|
fold [Map.S] |
fold f m init computes (f kN dN ... (f k1 d1 init)...) ,
where k1 ... kN are the keys of all bindings in m
(in increasing order), and d1 ... dN are the associated data.
|
fold [Hashtbl.SeededS] |
|
fold [Hashtbl.S] |
|
fold [Hashtbl] |
Hashtbl.fold f tbl init computes
(f kN dN ... (f k1 d1 init)...) ,
where k1 ... kN are the keys of all bindings in tbl ,
and d1 ... dN are the associated values.
|
fold [Either] |
fold ~left ~right (Left v) is left v , and
fold ~left ~right (Right v) is right v .
|
fold_left [String] |
fold_left f x s computes f (... (f (f x s.[0]) s.[1]) ...) s.[n-1] ,
where n is the length of the string s .
|
fold_left [StringLabels] |
fold_left f x s computes f (... (f (f x s.[0]) s.[1]) ...) s.[n-1] ,
where n is the length of the string s .
|
fold_left [Seq] |
fold_left f _ xs invokes f _ x successively
for every element x of the sequence xs ,
from left to right.
|
fold_left [ListLabels] |
fold_left ~f ~init [b1; ...; bn] is
f (... (f (f init b1) b2) ...) bn .
|
fold_left [List] |
fold_left f init [b1; ...; bn] is
f (... (f (f init b1) b2) ...) bn .
|
fold_left [Float.ArrayLabels] |
fold_left ~f x ~init computes
f (... (f (f x init.(0)) init.(1)) ...) init.(n-1) ,
where n is the length of the floatarray init .
|
fold_left [Float.Array] |
fold_left f x init computes
f (... (f (f x init.(0)) init.(1)) ...) init.(n-1) ,
where n is the length of the floatarray init .
|
fold_left [Dynarray] |
fold_left f acc a folds f over a in order,
starting with accumulator acc .
|
fold_left [BytesLabels] |
fold_left f x s computes
f (... (f (f x (get s 0)) (get s 1)) ...) (get s (n-1)) ,
where n is the length of s .
|
fold_left [Bytes] |
fold_left f x s computes
f (... (f (f x (get s 0)) (get s 1)) ...) (get s (n-1)) ,
where n is the length of s .
|
fold_left [ArrayLabels] |
fold_left ~f ~init a computes
f (... (f (f init a.(0)) a.(1)) ...) a.(n-1) ,
where n is the length of the array a .
|
fold_left [Array] |
fold_left f init a computes
f (... (f (f init a.(0)) a.(1)) ...) a.(n-1) ,
where n is the length of the array a .
|
fold_left2 [Seq] |
fold_left2 f _ xs ys invokes f _ x y successively
for every pair (x, y) of elements drawn synchronously
from the sequences xs and ys .
|
fold_left2 [ListLabels] |
fold_left2 ~f ~init [a1; ...; an] [b1; ...; bn] is
f (... (f (f init a1 b1) a2 b2) ...) an bn .
|
fold_left2 [List] |
fold_left2 f init [a1; ...; an] [b1; ...; bn] is
f (... (f (f init a1 b1) a2 b2) ...) an bn .
|
fold_left_map [ListLabels] |
fold_left_map is a combination of fold_left and map that threads an
accumulator through calls to f .
|
fold_left_map [List] |
fold_left_map is a combination of fold_left and map that threads an
accumulator through calls to f .
|
fold_left_map [ArrayLabels] |
|
fold_left_map [Array] |
|
fold_lefti [Seq] |
fold_lefti f _ xs invokes f _ i x successively
for every element x located at index i of the sequence xs .
|
fold_lines [In_channel] |
fold_lines f init ic reads lines from ic using In_channel.input_line
until the end of file is reached, and successively passes each line
to function f in the style of a fold.
|
fold_right [String] |
fold_right f s x computes f s.[0] (f s.[1] ( ... (f s.[n-1] x) ...)) ,
where n is the length of the string s .
|
fold_right [StringLabels] |
fold_right f s x computes f s.[0] (f s.[1] ( ... (f s.[n-1] x) ...)) ,
where n is the length of the string s .
|
fold_right [ListLabels] |
fold_right ~f [a1; ...; an] ~init is
f a1 (f a2 (... (f an init) ...)) .
|
fold_right [List] |
fold_right f [a1; ...; an] init is
f a1 (f a2 (... (f an init) ...)) .
|
fold_right [Float.ArrayLabels] |
fold_right f a init computes
f a.(0) (f a.(1) ( ... (f a.(n-1) init) ...)) ,
where n is the length of the floatarray a .
|
fold_right [Float.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 floatarray a .
|
fold_right [Dynarray] |
fold_right f a acc computes
f x0 (f x1 (... (f xn acc) ...))
where x0 , x1 , ..., xn are the elements of a .
|
fold_right [BytesLabels] |
fold_right f s x computes
f (get s 0) (f (get s 1) ( ... (f (get s (n-1)) x) ...)) ,
where n is the length of s .
|
fold_right [Bytes] |
fold_right f s x computes
f (get s 0) (f (get s 1) ( ... (f (get s (n-1)) x) ...)) ,
where n is the length of s .
|
fold_right [ArrayLabels] |
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_right [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_right2 [ListLabels] |
fold_right2 ~f [a1; ...; an] [b1; ...; bn] ~init is
f a1 b1 (f a2 b2 (... (f an bn init) ...)) .
|
fold_right2 [List] |
fold_right2 f [a1; ...; an] [b1; ...; bn] init is
f a1 b1 (f a2 b2 (... (f an bn init) ...)) .
|
for_all [String] |
for_all p s checks if all characters in s satisfy the predicate p .
|
for_all [StringLabels] |
for_all p s checks if all characters in s satisfy the predicate p .
|
for_all [Set.S] |
for_all f s checks if all elements of the set
satisfy the predicate f .
|
for_all [Seq] |
for_all p xs determines whether all elements x of the sequence xs
satisfy p x .
|
for_all [MoreLabels.Set.S] |
for_all ~f s checks if all elements of the set
satisfy the predicate f .
|
for_all [MoreLabels.Map.S] |
for_all ~f m checks if all the bindings of the map
satisfy the predicate f .
|
for_all [Map.S] |
for_all f m checks if all the bindings of the map
satisfy the predicate f .
|
for_all [ListLabels] |
for_all ~f [a1; ...; an] checks if all elements of the list
satisfy the predicate f .
|
for_all [List] |
for_all f [a1; ...; an] checks if all elements of the list
satisfy the predicate f .
|
for_all [Float.ArrayLabels] |
for_all ~f [|a1; ...; an|] checks if all elements of the floatarray
satisfy the predicate f .
|
for_all [Float.Array] |
for_all f [|a1; ...; an|] checks if all elements of the floatarray
satisfy the predicate f .
|
for_all [Either] |
for_all ~left ~right (Left v) is left v , and
for_all ~left ~right (Right v) is right v .
|
for_all [Dynarray] |
for_all f a is true if all elements of a satisfy f .
|
for_all [BytesLabels] |
for_all p s checks if all characters in s satisfy the predicate p .
|
for_all [Bytes] |
for_all p s checks if all characters in s satisfy the predicate p .
|
for_all [ArrayLabels] |
for_all ~f [|a1; ...; an|] checks if all elements
of the array satisfy the predicate f .
|
for_all [Array] |
for_all f [|a1; ...; an|] checks if all elements
of the array satisfy the predicate f .
|
for_all2 [Seq] |
for_all2 p xs ys determines whether all pairs (x, y) of elements
drawn synchronously from the sequences xs and ys satisfy p x y .
|
for_all2 [ListLabels] |
|
for_all2 [List] |
|
for_all2 [ArrayLabels] |
|
for_all2 [Array] |
|
force [Lazy] |
force x forces the suspension x and returns its result.
|
force_gen [CamlinternalLazy] |
|
force_lazy_block [CamlinternalLazy] |
|
force_newline [Format] |
Force a new line in the current pretty-printing box.
|
force_val [Lazy] |
force_val x forces the suspension x and returns its result.
|
forcing_tag [Obj] |
|
forever [Seq] |
forever f is an infinite sequence where every element is produced
(on demand) by the function call f() .
|
fork [UnixLabels] |
|
fork [Unix] |
|
format [Printexc.Slot] |
format pos slot returns the string representation of slot as
raw_backtrace_to_string would format it, assuming it is the
pos -th element of the backtrace: the 0 -th element is
pretty-printed differently than the others.
|
format_from_string [Scanf] |
format_from_string s fmt converts a string argument to a format string,
according to the given format string fmt .
|
format_of_string [Stdlib] |
format_of_string s returns a format string read from the string
literal s .
|
format_of_string_fmtty [CamlinternalFormat] |
|
format_of_string_format [CamlinternalFormat] |
|
formatter_of_buffer [Format] |
formatter_of_buffer b returns a new formatter writing to
buffer b .
|
formatter_of_out_channel [Format] |
formatter_of_out_channel oc returns a new formatter writing
to the corresponding output channel oc .
|
formatter_of_out_functions [Format] |
formatter_of_out_functions out_funs returns a new formatter that writes
with the set of output functions out_funs .
|
formatter_of_symbolic_output_buffer [Format] |
formatter_of_symbolic_output_buffer sob returns a symbolic formatter
that outputs to symbolic_output_buffer sob .
|
fortran_layout [Bigarray] |
|
forward_tag [Obj] |
|
fprintf [Printf] |
fprintf outchan format arg1 ... argN formats the arguments
arg1 to argN according to the format string format , and
outputs the resulting string on the channel outchan .
|
fprintf [Format] |
|
free_cursor [Runtime_events] |
Free a previously created runtime_events cursor.
|
freeze_char_set [CamlinternalFormat] |
|
frexp [Stdlib] |
frexp f returns the pair of the significant
and the exponent of f .
|
frexp [Float] |
frexp f returns the pair of the significant
and the exponent of f .
|
from_bytes [Marshal] |
Marshal.from_bytes buff ofs unmarshals a structured value
like Marshal.from_channel does, except that the byte
representation is not read from a channel, but taken from
the byte sequence buff , starting at position ofs .
|
from_channel [Scanf.Scanning] |
|
from_channel [Marshal] |
Marshal.from_channel chan reads from channel chan the
byte representation of a structured value, as produced by
one of the Marshal.to_* functions, and reconstructs and
returns the corresponding value.
|
from_channel [Lexing] |
Create a lexer buffer on the given input channel.
|
from_file [Scanf.Scanning] |
|
from_file_bin [Scanf.Scanning] |
|
from_fun [Lazy] |
from_fun f is the same as lazy (f ()) but slightly more efficient.
|
from_function [Scanf.Scanning] |
Scanning.from_function f returns a Scanf.Scanning.in_channel formatted
input channel with the given function as its reading method.
|
from_function [Lexing] |
Create a lexer buffer with the given function as its reading method.
|
from_hex [Digest] |
|
from_string [Scanf.Scanning] |
|
from_string [Marshal] |
Same as from_bytes but take a string as argument instead of a
byte sequence.
|
from_string [Lexing] |
Create a lexer buffer which reads from
the given string.
|
from_val [Lazy] |
from_val v evaluates v first (as any function would) and returns
an already-forced suspension of its result.
|
fst [Stdlib] |
Return the first component of a pair.
|
fstat [UnixLabels.LargeFile] |
|
fstat [UnixLabels] |
Return the information for the file associated with the given
descriptor.
|
fstat [Unix.LargeFile] |
|
fstat [Unix] |
Return the information for the file associated with the given
descriptor.
|
fsync [UnixLabels] |
Flush file buffers to disk.
|
fsync [Unix] |
Flush file buffers to disk.
|
ftruncate [UnixLabels.LargeFile] |
|
ftruncate [UnixLabels] |
Truncates the file corresponding to the given descriptor
to the given size.
|
ftruncate [Unix.LargeFile] |
|
ftruncate [Unix] |
Truncates the file corresponding to the given descriptor
to the given size.
|
full_init [Random] |
|
full_int [Random.State] |
|
full_int [Random] |
Random.full_int bound returns a random integer between 0 (inclusive)
and bound (exclusive).
|
full_major [Gc] |
Do a minor collection, finish the current major collection cycle,
and perform a complete new cycle.
|
full_split [Str] |
Same as Str.split_delim , but returns
the delimiters as well as the substrings contained between
delimiters.
|
G |
genarray_of_array0 [Bigarray] |
Return the generic Bigarray corresponding to the given zero-dimensional
Bigarray.
|
genarray_of_array1 [Bigarray] |
Return the generic Bigarray corresponding to the given one-dimensional
Bigarray.
|
genarray_of_array2 [Bigarray] |
Return the generic Bigarray corresponding to the given two-dimensional
Bigarray.
|
genarray_of_array3 [Bigarray] |
Return the generic Bigarray corresponding to the given three-dimensional
Bigarray.
|
get [Weak] |
Weak.get ar n returns None if the n th cell of ar is
empty, Some x (where x is the value) if it is full.
|
get [String] |
get s i is the character at index i in s .
|
get [StringLabels] |
get s i is the character at index i in s .
|
get [Option] |
get o is v if o is Some v and raise otherwise.
|
get [Gc] |
Return the current values of the GC parameters in a control record.
|
get [Float.ArrayLabels] |
get a n returns the element number n of floatarray a .
|
get [Float.Array] |
get a n returns the element number n of floatarray a .
|
get [Dynarray] |
get a i is the i -th element of a , starting with index 0 .
|
get [Domain.DLS] |
get k returns v if a value v is associated to the key k on
the calling domain's domain-local state.
|
get [BytesLabels] |
get s n returns the byte at index n in argument s .
|
get [Bytes] |
get s n returns the byte at index n in argument s .
|
get [Bigarray.Array3] |
Array3.get a x y z , also written a.{x,y,z} ,
returns the element of a at coordinates (x , y , z ).
|
get [Bigarray.Array2] |
Array2.get a x y , also written a.{x,y} ,
returns the element of a at coordinates (x , y ).
|
get [Bigarray.Array1] |
Array1.get a x , or alternatively a.{x} ,
returns the element of a at index x .
|
get [Bigarray.Array0] |
Array0.get a returns the only element in a .
|
get [Bigarray.Genarray] |
Read an element of a generic Bigarray.
|
get [Atomic] |
Get the current value of the atomic reference.
|
get [ArrayLabels] |
get a n returns the element number n of array a .
|
get [Array] |
get a n returns the element number n of array a .
|
get_backtrace [Printexc] |
Printexc.get_backtrace () returns a string containing the
same exception backtrace that Printexc.print_backtrace would
print.
|
get_callstack [Printexc] |
Printexc.get_callstack n returns a description of the top of the
call stack on the current program point (for the current thread),
with at most n entries.
|
get_callstack [Effect.Shallow] |
get_callstack c n returns a description of the top of the call stack on
the continuation c , with at most n entries.
|
get_callstack [Effect.Deep] |
get_callstack c n returns a description of the top of the call stack on
the continuation c , with at most n entries.
|
get_copy [Weak] |
Weak.get_copy ar n returns None if the n th cell of ar is
empty, Some x (where x is a (shallow) copy of the value) if
it is full.
|
get_data [Obj.Ephemeron] |
|
get_data_copy [Obj.Ephemeron] |
|
get_ellipsis_text [Format] |
Return the text of the ellipsis.
|
get_err_formatter [Format] |
get_err_formatter () returns the current domain's formatter used to write
to standard error.
|
get_error [Result] |
get_error r is e if r is Error e and raise otherwise.
|
get_formatter_out_functions [Format] |
Return the current output functions of the pretty-printer,
including line splitting and indentation functions.
|
get_formatter_output_functions [Format] |
Return the current output functions of the standard pretty-printer.
|
get_formatter_stag_functions [Format] |
Return the current semantic tag operation functions of the standard
pretty-printer.
|
get_geometry [Format] |
Return the current geometry of the formatter
|
get_id [Domain] |
get_id d returns the identifier of the domain d
|
get_int16_be [String] |
get_int16_be b i is b 's big-endian signed 16-bit integer
starting at character index i .
|
get_int16_be [StringLabels] |
get_int16_be b i is b 's big-endian signed 16-bit integer
starting at character index i .
|
get_int16_be [BytesLabels] |
get_int16_be b i is b 's big-endian signed 16-bit integer
starting at byte index i .
|
get_int16_be [Bytes] |
get_int16_be b i is b 's big-endian signed 16-bit integer
starting at byte index i .
|
get_int16_le [String] |
get_int16_le b i is b 's little-endian signed 16-bit integer
starting at character index i .
|
get_int16_le [StringLabels] |
get_int16_le b i is b 's little-endian signed 16-bit integer
starting at character index i .
|
get_int16_le [BytesLabels] |
get_int16_le b i is b 's little-endian signed 16-bit integer
starting at byte index i .
|
get_int16_le [Bytes] |
get_int16_le b i is b 's little-endian signed 16-bit integer
starting at byte index i .
|
get_int16_ne [String] |
get_int16_ne b i is b 's native-endian signed 16-bit integer
starting at character index i .
|
get_int16_ne [StringLabels] |
get_int16_ne b i is b 's native-endian signed 16-bit integer
starting at character index i .
|
get_int16_ne [BytesLabels] |
get_int16_ne b i is b 's native-endian signed 16-bit integer
starting at byte index i .
|
get_int16_ne [Bytes] |
get_int16_ne b i is b 's native-endian signed 16-bit integer
starting at byte index i .
|
get_int32_be [String] |
get_int32_be b i is b 's big-endian 32-bit integer
starting at character index i .
|
get_int32_be [StringLabels] |
get_int32_be b i is b 's big-endian 32-bit integer
starting at character index i .
|
get_int32_be [BytesLabels] |
get_int32_be b i is b 's big-endian 32-bit integer
starting at byte index i .
|
get_int32_be [Bytes] |
get_int32_be b i is b 's big-endian 32-bit integer
starting at byte index i .
|
get_int32_le [String] |
get_int32_le b i is b 's little-endian 32-bit integer
starting at character index i .
|
get_int32_le [StringLabels] |
get_int32_le b i is b 's little-endian 32-bit integer
starting at character index i .
|
get_int32_le [BytesLabels] |
get_int32_le b i is b 's little-endian 32-bit integer
starting at byte index i .
|
get_int32_le [Bytes] |
get_int32_le b i is b 's little-endian 32-bit integer
starting at byte index i .
|
get_int32_ne [String] |
get_int32_ne b i is b 's native-endian 32-bit integer
starting at character index i .
|
get_int32_ne [StringLabels] |
get_int32_ne b i is b 's native-endian 32-bit integer
starting at character index i .
|
get_int32_ne [BytesLabels] |
get_int32_ne b i is b 's native-endian 32-bit integer
starting at byte index i .
|
get_int32_ne [Bytes] |
get_int32_ne b i is b 's native-endian 32-bit integer
starting at byte index i .
|
get_int64_be [String] |
get_int64_be b i is b 's big-endian 64-bit integer
starting at character index i .
|
get_int64_be [StringLabels] |
get_int64_be b i is b 's big-endian 64-bit integer
starting at character index i .
|
get_int64_be [BytesLabels] |
get_int64_be b i is b 's big-endian 64-bit integer
starting at byte index i .
|
get_int64_be [Bytes] |
get_int64_be b i is b 's big-endian 64-bit integer
starting at byte index i .
|
get_int64_le [String] |
get_int64_le b i is b 's little-endian 64-bit integer
starting at character index i .
|
get_int64_le [StringLabels] |
get_int64_le b i is b 's little-endian 64-bit integer
starting at character index i .
|
get_int64_le [BytesLabels] |
get_int64_le b i is b 's little-endian 64-bit integer
starting at byte index i .
|
get_int64_le [Bytes] |
get_int64_le b i is b 's little-endian 64-bit integer
starting at byte index i .
|
get_int64_ne [String] |
get_int64_ne b i is b 's native-endian 64-bit integer
starting at character index i .
|
get_int64_ne [StringLabels] |
get_int64_ne b i is b 's native-endian 64-bit integer
starting at character index i .
|
get_int64_ne [BytesLabels] |
get_int64_ne b i is b 's native-endian 64-bit integer
starting at byte index i .
|
get_int64_ne [Bytes] |
get_int64_ne b i is b 's native-endian 64-bit integer
starting at byte index i .
|
get_int8 [String] |
get_int8 b i is b 's signed 8-bit integer starting at character
index i .
|
get_int8 [StringLabels] |
get_int8 b i is b 's signed 8-bit integer starting at character
index i .
|
get_int8 [BytesLabels] |
get_int8 b i is b 's signed 8-bit integer starting at byte index i .
|
get_int8 [Bytes] |
get_int8 b i is b 's signed 8-bit integer starting at byte index i .
|
get_key [Obj.Ephemeron] |
|
get_key_copy [Obj.Ephemeron] |
|
get_last [Dynarray] |
get_last a is the element of a at index length a - 1 .
|
get_margin [Format] |
Returns the position of the right margin.
|
get_mark_tags [Format] |
Return the current status of tag-marking operations.
|
get_max_boxes [Format] |
Returns the maximum number of pretty-printing boxes allowed before
ellipsis.
|
get_max_indent [Format] |
Return the maximum indentation limit (in characters).
|
get_method [CamlinternalOO] |
|
get_method_label [CamlinternalOO] |
|
get_method_labels [CamlinternalOO] |
|
get_minor_free [Gc] |
Return the current size of the free space inside the minor heap of this
domain.
|
get_ok [Result] |
get_ok r is v if r is Ok v and raise otherwise.
|
get_print_tags [Format] |
Return the current status of tag-printing operations.
|
get_public_method [CamlinternalOO] |
|
get_raw_backtrace [Printexc] |
Printexc.get_raw_backtrace () returns the same exception
backtrace that Printexc.print_backtrace would print, but in
a raw format.
|
get_raw_backtrace_next_slot [Printexc] |
get_raw_backtrace_next_slot slot returns the next slot inlined, if any.
|
get_raw_backtrace_slot [Printexc] |
get_raw_backtrace_slot bckt pos returns the slot in position pos in the
backtrace bckt .
|
get_state [Random] |
get_state() returns a fresh copy of the current state of the
domain-local generator (which is used by the basic functions).
|
get_std_formatter [Format] |
get_std_formatter () returns the current domain's standard formatter used
to write to standard output.
|
get_stdbuf [Format] |
get_stdbuf () returns the current domain's string buffer in which the
current domain's string formatter writes.
|
get_str_formatter [Format] |
The current domain's formatter to output to the current domains string
buffer.
|
get_symbolic_output_buffer [Format] |
get_symbolic_output_buffer sob returns the contents of buffer sob .
|
get_temp_dir_name [Filename] |
The name of the temporary directory:
Under Unix, the value of the TMPDIR environment variable, or "/tmp"
if the variable is not set.
|
get_uint16_be [String] |
get_uint16_be b i is b 's big-endian unsigned 16-bit integer
starting at character index i .
|
get_uint16_be [StringLabels] |
get_uint16_be b i is b 's big-endian unsigned 16-bit integer
starting at character index i .
|
get_uint16_be [BytesLabels] |
get_uint16_be b i is b 's big-endian unsigned 16-bit integer
starting at byte index i .
|
get_uint16_be [Bytes] |
get_uint16_be b i is b 's big-endian unsigned 16-bit integer
starting at byte index i .
|
get_uint16_le [String] |
get_uint16_le b i is b 's little-endian unsigned 16-bit integer
starting at character index i .
|
get_uint16_le [StringLabels] |
get_uint16_le b i is b 's little-endian unsigned 16-bit integer
starting at character index i .
|
get_uint16_le [BytesLabels] |
get_uint16_le b i is b 's little-endian unsigned 16-bit integer
starting at byte index i .
|
get_uint16_le [Bytes] |
get_uint16_le b i is b 's little-endian unsigned 16-bit integer
starting at byte index i .
|
get_uint16_ne [String] |
get_uint16_ne b i is b 's native-endian unsigned 16-bit integer
starting at character index i .
|
get_uint16_ne [StringLabels] |
get_uint16_ne b i is b 's native-endian unsigned 16-bit integer
starting at character index i .
|
get_uint16_ne [BytesLabels] |
get_uint16_ne b i is b 's native-endian unsigned 16-bit integer
starting at byte index i .
|
get_uint16_ne [Bytes] |
get_uint16_ne b i is b 's native-endian unsigned 16-bit integer
starting at byte index i .
|
get_uint8 [String] |
get_uint8 b i is b 's unsigned 8-bit integer starting at character
index i .
|
get_uint8 [StringLabels] |
get_uint8 b i is b 's unsigned 8-bit integer starting at character
index i .
|
get_uint8 [BytesLabels] |
get_uint8 b i is b 's unsigned 8-bit integer starting at byte index i .
|
get_uint8 [Bytes] |
get_uint8 b i is b 's unsigned 8-bit integer starting at byte index i .
|
get_utf_16be_uchar [String] |
get_utf_16be_uchar b i decodes an UTF-16BE character at index
i in b .
|
get_utf_16be_uchar [StringLabels] |
get_utf_16be_uchar b i decodes an UTF-16BE character at index
i in b .
|
get_utf_16be_uchar [BytesLabels] |
get_utf_16be_uchar b i decodes an UTF-16BE character at index
i in b .
|
get_utf_16be_uchar [Bytes] |
get_utf_16be_uchar b i decodes an UTF-16BE character at index
i in b .
|
get_utf_16le_uchar [String] |
get_utf_16le_uchar b i decodes an UTF-16LE character at index
i in b .
|
get_utf_16le_uchar [StringLabels] |
get_utf_16le_uchar b i decodes an UTF-16LE character at index
i in b .
|
get_utf_16le_uchar [BytesLabels] |
get_utf_16le_uchar b i decodes an UTF-16LE character at index
i in b .
|
get_utf_16le_uchar [Bytes] |
get_utf_16le_uchar b i decodes an UTF-16LE character at index
i in b .
|
get_utf_8_uchar [String] |
get_utf_8_uchar b i decodes an UTF-8 character at index i in
b .
|
get_utf_8_uchar [StringLabels] |
get_utf_8_uchar b i decodes an UTF-8 character at index i in
b .
|
get_utf_8_uchar [BytesLabels] |
get_utf_8_uchar b i decodes an UTF-8 character at index i in
b .
|
get_utf_8_uchar [Bytes] |
get_utf_8_uchar b i decodes an UTF-8 character at index i in
b .
|
get_value [Semaphore.Counting] |
get_value s returns the current value of semaphore s .
|
get_variable [CamlinternalOO] |
|
get_variables [CamlinternalOO] |
|
getaddrinfo [UnixLabels] |
getaddrinfo host service opts returns a list of UnixLabels.addr_info
records describing socket parameters and addresses suitable for
communicating with the given host and service.
|
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.
|
getcwd [UnixLabels] |
Return the name of the current working directory.
|
getcwd [Unix] |
Return the name of the current working directory.
|
getcwd [Sys] |
Return the current working directory of the process.
|
getegid [UnixLabels] |
Return the effective group id under which the process runs.
|
getegid [Unix] |
Return the effective group id under which the process runs.
|
getenv [UnixLabels] |
Return the value associated to a variable in the process
environment, unless the process has special privileges.
|
getenv [Unix] |
Return the value associated to a variable in the process
environment, unless the process has special privileges.
|
getenv [Sys] |
Return the value associated to a variable in the process
environment.
|
getenv_opt [Sys] |
Return the value associated to a variable in the process
environment or None if the variable is unbound.
|
geteuid [UnixLabels] |
Return the effective user id under which the process runs.
|
geteuid [Unix] |
Return the effective user id under which the process runs.
|
getgid [UnixLabels] |
Return the group id of the user executing the process.
|
getgid [Unix] |
Return the group id of the user executing the process.
|
getgrgid [UnixLabels] |
Find an entry in group with the given group id.
|
getgrgid [Unix] |
Find an entry in group with the given group id.
|
getgrnam [UnixLabels] |
Find an entry in group with the given name.
|
getgrnam [Unix] |
Find an entry in group with the given name.
|
getgroups [UnixLabels] |
Return the list of groups to which the user executing the process
belongs.
|
getgroups [Unix] |
Return the list of groups to which the user executing the process
belongs.
|
gethostbyaddr [UnixLabels] |
Find an entry in hosts with the given address.
|
gethostbyaddr [Unix] |
Find an entry in hosts with the given address.
|
gethostbyname [UnixLabels] |
Find an entry in hosts with the given name.
|
gethostbyname [Unix] |
Find an entry in hosts with the given name.
|
gethostname [UnixLabels] |
Return the name of the local host.
|
gethostname [Unix] |
Return the name of the local host.
|
getitimer [UnixLabels] |
Return the current status of the given interval timer.
|
getitimer [Unix] |
Return the current status of the given interval timer.
|
getlogin [UnixLabels] |
Return the login name of the user executing the process.
|
getlogin [Unix] |
Return the login name of the user executing the process.
|
getnameinfo [UnixLabels] |
getnameinfo addr opts returns the host name and service name
corresponding to the socket address addr .
|
getnameinfo [Unix] |
getnameinfo addr opts returns the host name and service name
corresponding to the socket address addr .
|
getpeername [UnixLabels] |
Return the address of the host connected to the given socket.
|
getpeername [Unix] |
Return the address of the host connected to the given socket.
|
getpid [UnixLabels] |
Return the pid of the process.
|
getpid [Unix] |
Return the pid of the process.
|
getppid [UnixLabels] |
Return the pid of the parent process.
|
getppid [Unix] |
Return the pid of the parent process.
|
getprotobyname [UnixLabels] |
Find an entry in protocols with the given name.
|
getprotobyname [Unix] |
Find an entry in protocols with the given name.
|
getprotobynumber [UnixLabels] |
Find an entry in protocols with the given protocol number.
|
getprotobynumber [Unix] |
Find an entry in protocols with the given protocol number.
|
getpwnam [UnixLabels] |
Find an entry in passwd with the given name.
|
getpwnam [Unix] |
Find an entry in passwd with the given name.
|
getpwuid [UnixLabels] |
Find an entry in passwd with the given user id.
|
getpwuid [Unix] |
Find an entry in passwd with the given user id.
|
getservbyname [UnixLabels] |
Find an entry in services with the given name.
|
getservbyname [Unix] |
Find an entry in services with the given name.
|
getservbyport [UnixLabels] |
Find an entry in services with the given service number.
|
getservbyport [Unix] |
Find an entry in services with the given service number.
|
getsockname [UnixLabels] |
Return the address of the given socket.
|
getsockname [Unix] |
Return the address of the given socket.
|
getsockopt [UnixLabels] |
Return the current status of a boolean-valued option
in the given socket.
|
getsockopt [Unix] |
Return the current status of a boolean-valued option
in the given socket.
|
getsockopt_error [UnixLabels] |
Return the error condition associated with the given socket,
and clear it.
|
getsockopt_error [Unix] |
Return the error condition associated with the given socket,
and clear it.
|
getsockopt_float [UnixLabels] |
|
getsockopt_float [Unix] |
Same as Unix.getsockopt for a socket option whose value is a
floating-point number.
|
getsockopt_int [UnixLabels] |
|
getsockopt_int [Unix] |
|
getsockopt_optint [UnixLabels] |
|
getsockopt_optint [Unix] |
|
gettimeofday [UnixLabels] |
|
gettimeofday [Unix] |
Same as Unix.time , but with resolution better than 1 second.
|
getuid [UnixLabels] |
Return the user id of the user executing the process.
|
getuid [Unix] |
Return the user id of the user executing the process.
|
global_replace [Str] |
global_replace regexp templ s returns a string identical to s ,
except that all substrings of s that match regexp have been
replaced by templ .
|
global_substitute [Str] |
global_substitute regexp subst s returns a string identical
to s , except that all substrings of s that match regexp
have been replaced by the result of function subst .
|
gmtime [UnixLabels] |
Convert a time in seconds, as returned by UnixLabels.time , into a date and
a time.
|
gmtime [Unix] |
Convert a time in seconds, as returned by Unix.time , into a date and
a time.
|
group [Seq] |
Provided the function eq defines an equality on elements,
group eq xs is the sequence of the maximal runs
of adjacent duplicate elements of the sequence xs .
|
group_beginning [Str] |
group_beginning n returns the position of the first character
of the substring that was matched by the n th group of
the regular expression that was matched by the last call to a
matching or searching function (see Str.matched_string for details).
|
group_end [Str] |
group_end n returns
the position of the character following the last character of
substring that was matched by the n th group of the regular
expression that was matched by the last call to a matching or
searching function (see Str.matched_string for details).
|
guard [Event] |
guard fn returns the event that, when synchronized, computes
fn() and behaves as the resulting event.
|
H |
handle_unix_error [UnixLabels] |
handle_unix_error f x applies f to x and returns the result.
|
handle_unix_error [Unix] |
handle_unix_error f x applies f to x and returns the result.
|
has_symlink [UnixLabels] |
Returns true if the user is able to create symbolic links.
|
has_symlink [Unix] |
Returns true if the user is able to create symbolic links.
|
hash [Uchar] |
hash u associates a non-negative integer to u .
|
hash [String] |
An unseeded hash function for strings, with the same output value as
Hashtbl.hash .
|
hash [StringLabels] |
An unseeded hash function for strings, with the same output value as
Hashtbl.hash .
|
hash [Nativeint] |
An unseeded hash function for native ints, with the same output value as
Hashtbl.hash .
|
hash [MoreLabels.Hashtbl.HashedType] |
A hashing function on keys.
|
hash [MoreLabels.Hashtbl] |
Hashtbl.hash x associates a nonnegative integer to any value of
any type.
|
hash [Int64] |
An unseeded hash function for 64-bit ints, with the same output value as
Hashtbl.hash .
|
hash [Int32] |
An unseeded hash function for 32-bit ints, with the same output value as
Hashtbl.hash .
|
hash [Int] |
An unseeded hash function for ints, with the same output value as
Hashtbl.hash .
|
hash [Hashtbl.HashedType] |
A hashing function on keys.
|
hash [Hashtbl] |
Hashtbl.hash x associates a nonnegative integer to any value of
any type.
|
hash [Float] |
An unseeded hash function for floats, with the same output value as
Hashtbl.hash .
|
hash [Char] |
An unseeded hash function for characters, with the same output value as
Hashtbl.hash .
|
hash [Bool] |
An unseeded hash function for booleans, with the same output value as
Hashtbl.hash .
|
hash_length [Digest.S] |
The length of digests, in bytes.
|
hash_param [MoreLabels.Hashtbl] |
Hashtbl.hash_param meaningful total x computes a hash value for x ,
with the same properties as for hash .
|
hash_param [Hashtbl] |
Hashtbl.hash_param meaningful total x computes a hash value for x ,
with the same properties as for hash .
|
hd [ListLabels] |
Return the first element of the given list.
|
hd [List] |
Return the first element of the given list.
|
header_size [Marshal] |
The bytes representing a marshaled value are composed of
a fixed-size header and a variable-sized data part,
whose size can be determined from the header.
|
hypot [Stdlib] |
hypot x y returns sqrt(x *. x + y *. y) , that is, the length
of the hypotenuse of a right-angled triangle with sides of length
x and y , or, equivalently, the distance of the point (x,y)
to origin.
|
hypot [Float] |
hypot x y returns sqrt(x *. x +. y *. y) , that is, the length
of the hypotenuse of a right-angled triangle with sides of length
x and y , or, equivalently, the distance of the point (x,y)
to origin.
|
I |
i [Complex] |
|
ibprintf [Printf] |
|
id [Thread] |
Return the identifier of the given thread.
|
id [Oo] |
Return an integer identifying this object, unique for
the current execution of the program.
|
id [Obj.Extension_constructor] |
|
id [Fun] |
id is the identity function.
|
ifprintf [Printf] |
|
ifprintf [Format] |
Same as fprintf above, but does not print anything.
|
ignore [Stdlib] |
Discard the value of its argument and return () .
|
ikbprintf [Printf] |
Same as kbprintf above, but does not print anything.
|
ikfprintf [Printf] |
Same as kfprintf above, but does not print anything.
|
ikfprintf [Format] |
Same as kfprintf above, but does not print anything.
|
in_channel_length [Stdlib.LargeFile] |
|
in_channel_length [Stdlib] |
Return the size (number of characters) of the regular file
on which the given channel is opened.
|
in_channel_of_descr [UnixLabels] |
Create an input channel reading from the given descriptor.
|
in_channel_of_descr [Unix] |
Create an input channel reading from the given descriptor.
|
incr [Stdlib] |
Increment the integer contained in the given reference.
|
incr [Atomic] |
incr r atomically increments the value of r by 1 .
|
index [String] |
|
index [StringLabels] |
|
index [BytesLabels] |
index s c returns the index of the first occurrence of byte c
in s .
|
index [Bytes] |
index s c returns the index of the first occurrence of byte c
in s .
|
index_from [String] |
index_from s i c is the index of the first occurrence of c in
s after position i .
|
index_from [StringLabels] |
index_from s i c is the index of the first occurrence of c in
s after position i .
|
index_from [BytesLabels] |
index_from s i c returns the index of the first occurrence of
byte c in s after position i .
|
index_from [Bytes] |
index_from s i c returns the index of the first occurrence of
byte c in s after position i .
|
index_from_opt [String] |
index_from_opt s i c is the index of the first occurrence of c
in s after position i (if any).
|
index_from_opt [StringLabels] |
index_from_opt s i c is the index of the first occurrence of c
in s after position i (if any).
|
index_from_opt [BytesLabels] |
index_from_opt s i c returns the index of the first occurrence of
byte c in s after position i or None if c does not occur in s
after position i .
|
index_from_opt [Bytes] |
index_from_opt s i c returns the index of the first occurrence of
byte c in s after position i or None if c does not occur in s
after position i .
|
index_opt [String] |
|
index_opt [StringLabels] |
|
index_opt [BytesLabels] |
index_opt s c returns the index of the first occurrence of byte c
in s or None if c does not occur in s .
|
index_opt [Bytes] |
index_opt s c returns the index of the first occurrence of byte c
in s or None if c does not occur in s .
|
inet6_addr_any [UnixLabels] |
A special IPv6 address, for use only with bind , representing
all the Internet addresses that the host machine possesses.
|
inet6_addr_any [Unix] |
A special IPv6 address, for use only with bind , representing
all the Internet addresses that the host machine possesses.
|
inet6_addr_loopback [UnixLabels] |
A special IPv6 address representing the host machine (::1 ).
|
inet6_addr_loopback [Unix] |
A special IPv6 address representing the host machine (::1 ).
|
inet_addr_any [UnixLabels] |
A special IPv4 address, for use only with bind , representing
all the Internet addresses that the host machine possesses.
|
inet_addr_any [Unix] |
A special IPv4 address, for use only with bind , representing
all the Internet addresses that the host machine possesses.
|
inet_addr_loopback [UnixLabels] |
A special IPv4 address representing the host machine (127.0.0.1 ).
|
inet_addr_loopback [Unix] |
A special IPv4 address representing the host machine (127.0.0.1 ).
|
inet_addr_of_string [UnixLabels] |
Conversion from the printable representation of an Internet
address to its internal representation.
|
inet_addr_of_string [Unix] |
Conversion from the printable representation of an Internet
address to its internal representation.
|
infinity [Stdlib] |
|
infinity [Float] |
|
infix_tag [Obj] |
|
inherits [CamlinternalOO] |
|
init [String] |
init n f is a string of length n with index
i holding the character f i (called in increasing index order).
|
init [StringLabels] |
init n ~f is a string of length n with index
i holding the character f i (called in increasing index order).
|
init [Seq] |
init n f is the sequence f 0; f 1; ...; f (n-1) .
|
init [Random] |
Initialize the domain-local generator, using the argument as a seed.
|
init [ListLabels] |
init ~len ~f is [f 0; f 1; ...; f (len-1)] , evaluated left to right.
|
init [List] |
init len f is [f 0; f 1; ...; f (len-1)] , evaluated left to right.
|
init [Float.ArrayLabels] |
init n ~f returns a fresh floatarray of length n ,
with element number i initialized to the result of f i .
|
init [Float.Array] |
init n f returns a fresh floatarray of length n ,
with element number i initialized to the result of f i .
|
init [Dynarray] |
init n f is a new array a of length n ,
such that get a i is f i .
|
init [BytesLabels] |
init n f returns a fresh byte sequence of length n ,
with character i initialized to the result of f i (in increasing
index order).
|
init [Bytes] |
init n f returns a fresh byte sequence of length n ,
with character i initialized to the result of f i (in increasing
index order).
|
init [Bigarray.Array3] |
Array3.init kind layout dim1 dim2 dim3 f returns a new Bigarray b
of three dimensions, whose size is dim1 in the first dimension,
dim2 in the second dimension, and dim3 in the third.
|
init [Bigarray.Array2] |
Array2.init kind layout dim1 dim2 f returns a new Bigarray b
of two dimensions, whose size is dim2 in the first dimension
and dim2 in the second dimension.
|
init [Bigarray.Array1] |
Array1.init kind layout dim f returns a new Bigarray b
of one dimension, whose size is dim .
|
init [Bigarray.Array0] |
Array0.init kind layout v behaves like Array0.create kind layout
except that the element is additionally initialized to the value v .
|
init [Bigarray.Genarray] |
Genarray.init kind layout dimensions f returns a new Bigarray b
whose element kind is determined by the parameter kind (one of
float32 , float64 , int8_signed , etc) and whose layout is
determined by the parameter layout (one of c_layout or
fortran_layout ).
|
init [ArrayLabels] |
init n ~f returns a fresh array of length n ,
with element number i initialized to the result of f i .
|
init [Array] |
init n f returns a fresh array of length n ,
with element number i initialized to the result of f i .
|
init_class [CamlinternalOO] |
|
init_matrix [Float.ArrayLabels] |
init_matrix ~dimx ~dimy ~f returns a two-dimensional array
(an array of arrays)
with first dimension dimx and second dimension dimy ,
where the element at index (x,y ) is initialized with f x y .
|
init_matrix [Float.Array] |
init_matrix dimx dimy f returns a two-dimensional array
(an array of arrays)
with first dimension dimx and second dimension dimy ,
where the element at index (x,y ) is initialized with f x y .
|
init_matrix [ArrayLabels] |
init_matrix ~dimx ~dimy ~f returns a two-dimensional array
(an array of arrays)
with first dimension dimx and second dimension dimy ,
where the element at index (x,y ) is initialized with f x y .
|
init_matrix [Array] |
init_matrix dimx dimy f returns a two-dimensional array
(an array of arrays)
with first dimension dimx and second dimension dimy ,
where the element at index (x,y ) is initialized with f x y .
|
init_mod [CamlinternalMod] |
|
initgroups [UnixLabels] |
initgroups user group initializes the group access list by
reading the group database /etc/group and using all groups of
which user is a member.
|
initgroups [Unix] |
initgroups user group initializes the group access list by
reading the group database /etc/group and using all groups of
which user is a member.
|
input [Stdlib] |
input ic buf pos len reads up to len characters from
the given channel ic , storing them in byte sequence buf , starting at
character number pos .
|
input [In_channel] |
input ic buf pos len reads up to len characters from the given channel
ic , storing them in byte sequence buf , starting at character number
pos .
|
input [Digest.S] |
Read a digest from the given input channel.
|
input [Digest] |
Read a digest from the given input channel.
|
input_all [In_channel] |
input_all ic reads all remaining data from ic .
|
input_bigarray [In_channel] |
|
input_binary_int [Stdlib] |
Read an integer encoded in binary format (4 bytes, big-endian)
from the given input channel.
|
input_byte [Stdlib] |
Same as input_char , but return the 8-bit integer representing
the character.
|
input_byte [In_channel] |
|
input_char [Stdlib] |
Read one character from the given input channel.
|
input_char [In_channel] |
Read one character from the given input channel.
|
input_line [Stdlib] |
Read characters from the given input channel, until a
newline character is encountered.
|
input_line [In_channel] |
input_line ic reads characters from ic until a newline or the end of
file is reached.
|
input_lines [In_channel] |
|
input_value [Stdlib] |
Read the representation of a structured value, as produced
by output_value , and return the corresponding value.
|
int [Runtime_events.Type] |
An event containing an integer value.
|
int [Random.State] |
|
int [Random] |
Random.int bound returns a random integer between 0 (inclusive)
and bound (exclusive).
|
int [Bigarray] |
|
int16_signed [Bigarray] |
|
int16_unsigned [Bigarray] |
|
int32 [Random.State] |
|
int32 [Random] |
Random.int32 bound returns a random integer between 0 (inclusive)
and bound (exclusive).
|
int32 [Bigarray] |
|
int32_in_range [Random.State] |
|
int32_in_range [Random] |
Random.int32_in_range ~min ~max returns a random integer
between min (inclusive) and max (inclusive).
|
int64 [Random.State] |
|
int64 [Random] |
Random.int64 bound returns a random integer between 0 (inclusive)
and bound (exclusive).
|
int64 [Bigarray] |
|
int64_in_range [Random.State] |
|
int64_in_range [Random] |
Random.int64_in_range ~min ~max returns a random integer
between min (inclusive) and max (inclusive).
|
int8_signed [Bigarray] |
|
int8_unsigned [Bigarray] |
|
int_in_range [Random.State] |
|
int_in_range [Random] |
Random.int_in_range ~min ~max returns a random integer
between min (inclusive) and max (inclusive).
|
int_of_char [Stdlib] |
Return the ASCII code of the argument.
|
int_of_float [Stdlib] |
Truncate the given floating-point number to an integer.
|
int_of_string [Stdlib] |
Same as int_of_string_opt , but raise
Failure "int_of_string" instead of returning None .
|
int_of_string_opt [Stdlib] |
Convert the given string to an integer.
|
int_size [Sys] |
|
int_tag [Obj] |
|
inter [Set.S] |
|
inter [MoreLabels.Set.S] |
|
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 .
|
interleave [Seq] |
interleave xs ys is the sequence that begins with the first element of
xs , continues with the first element of ys , and so on.
|
ints [Seq] |
ints i is the infinite sequence of the integers beginning at i and
counting up.
|
inv [Complex] |
Multiplicative inverse (1/z ).
|
invalid_arg [Stdlib] |
Raise exception Invalid_argument with the given string.
|
is_binary_mode [Out_channel] |
|
is_binary_mode [In_channel] |
|
is_block [Obj] |
|
is_buffered [Out_channel] |
|
is_char [Uchar] |
is_char u is true if and only if u is a latin1 OCaml character.
|
is_directory [Sys] |
Returns true if the given name refers to a directory,
false if it refers to another kind of file.
|
is_empty [Stack] |
Return true if the given stack is empty, false otherwise.
|
is_empty [Set.S] |
Test whether a set is empty or not.
|
is_empty [Seq] |
is_empty xs determines whether the sequence xs is empty.
|
is_empty [Queue] |
Return true if the given queue is empty, false otherwise.
|
is_empty [MoreLabels.Set.S] |
Test whether a set is empty or not.
|
is_empty [MoreLabels.Map.S] |
Test whether a map is empty or not.
|
is_empty [Map.S] |
Test whether a map is empty or not.
|
is_empty [ListLabels] |
is_empty l is true if and only if l has no elements.
|
is_empty [List] |
is_empty l is true if and only if l has no elements.
|
is_empty [Dynarray] |
is_empty a is true if a is empty, that is, if length a = 0 .
|
is_error [Result] |
is_error r is true if and only if r is Error _ .
|
is_finite [Float] |
is_finite x is true if and only if x is finite i.e., not infinite and
not Float.nan .
|
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_in_char_set [CamlinternalFormat] |
|
is_inet6_addr [UnixLabels] |
Whether the given inet_addr is an IPv6 address.
|
is_inet6_addr [Unix] |
Whether the given inet_addr is an IPv6 address.
|
is_infinite [Float] |
|
is_inline [Printexc.Slot] |
is_inline slot is true when slot refers to a call
that got inlined by the compiler, and false when it comes from
any other context.
|
is_int [Obj] |
|
is_integer [Float] |
is_integer x is true if and only if x is an integer.
|
is_left [Either] |
is_left (Left v) is true , is_left (Right v) is false .
|
is_main_domain [Domain] |
is_main_domain () returns true if called from the initial domain.
|
is_nan [Float] |
is_nan x is true if and only if x is not a number (see Float.nan ).
|
is_native [Dynlink] |
true if the program is native,
false if the program is bytecode.
|
is_none [Option] |
is_none o is true if and only if o is None .
|
is_ok [Result] |
is_ok r is true if and only if r is Ok _ .
|
is_raise [Printexc.Slot] |
is_raise slot is true when slot refers to a raising
point in the code, and false when it comes from a simple
function call.
|
is_randomized [MoreLabels.Hashtbl] |
Return true if the tables are currently created in randomized mode
by default, false otherwise.
|
is_randomized [Hashtbl] |
Return true if the tables are currently created in randomized mode
by default, false otherwise.
|
is_regular_file [Sys] |
Returns true if the given name refers to a regular file,
false if it refers to another kind of file.
|
is_relative [Filename] |
Return true if the file name is relative to the current
directory, false if it is absolute (i.e.
|
is_right [Either] |
is_right (Left v) is false , is_right (Right v) is true .
|
is_some [Option] |
is_some o is true if and only if o is Some o .
|
is_val [Lazy] |
is_val x returns true if x has already been forced and
did not raise an exception.
|
is_valid [Uchar] |
is_valid n is true if and only if n is a Unicode scalar value
(i.e.
|
is_valid_utf_16be [String] |
is_valid_utf_16be b is true if and only if b contains valid
UTF-16BE data.
|
is_valid_utf_16be [StringLabels] |
is_valid_utf_16be b is true if and only if b contains valid
UTF-16BE data.
|
is_valid_utf_16be [BytesLabels] |
is_valid_utf_16be b is true if and only if b contains valid
UTF-16BE data.
|
is_valid_utf_16be [Bytes] |
is_valid_utf_16be b is true if and only if b contains valid
UTF-16BE data.
|
is_valid_utf_16le [String] |
is_valid_utf_16le b is true if and only if b contains valid
UTF-16LE data.
|
is_valid_utf_16le [StringLabels] |
is_valid_utf_16le b is true if and only if b contains valid
UTF-16LE data.
|
is_valid_utf_16le [BytesLabels] |
is_valid_utf_16le b is true if and only if b contains valid
UTF-16LE data.
|
is_valid_utf_16le [Bytes] |
is_valid_utf_16le b is true if and only if b contains valid
UTF-16LE data.
|
is_valid_utf_8 [String] |
is_valid_utf_8 b is true if and only if b contains valid
UTF-8 data.
|
is_valid_utf_8 [StringLabels] |
is_valid_utf_8 b is true if and only if b contains valid
UTF-8 data.
|
is_valid_utf_8 [BytesLabels] |
is_valid_utf_8 b is true if and only if b contains valid
UTF-8 data.
|
is_valid_utf_8 [Bytes] |
is_valid_utf_8 b is true if and only if b contains valid
UTF-8 data.
|
isatty [UnixLabels] |
Return true if the given file descriptor refers to a terminal or
console window, false otherwise.
|
isatty [Unix] |
Return true if the given file descriptor refers to a terminal or
console window, false otherwise.
|
isatty [Out_channel] |
isatty oc is true if oc refers to a terminal or console window,
false otherwise.
|
isatty [In_channel] |
isatty ic is true if ic refers to a terminal or console window,
false otherwise.
|
iter [Weak.S] |
iter f t calls f on each element of t , in some unspecified
order.
|
iter [String] |
iter f s applies function f in turn to all the characters of s .
|
iter [StringLabels] |
iter ~f s applies function f in turn to all the characters of s .
|
iter [Stack] |
iter f s applies f in turn to all elements of s ,
from the element at the top of the stack to the element at the
bottom of the stack.
|
iter [Set.S] |
iter f s applies f in turn to all elements of s .
|
iter [Seq] |
iter f xs invokes f x successively
for every element x of the sequence xs ,
from left to right.
|
iter [Result] |
iter f r is f v if r is Ok v and () otherwise.
|
iter [Queue] |
iter f q applies f in turn to all elements of q ,
from the least recently entered to the most recently entered.
|
iter [Option] |
iter f o is f v if o is Some v and () otherwise.
|
iter [MoreLabels.Set.S] |
iter ~f s applies f in turn to all elements of s .
|
iter [MoreLabels.Map.S] |
iter ~f m applies f to all bindings in map m .
|
iter [MoreLabels.Hashtbl.SeededS] |
|
iter [MoreLabels.Hashtbl.S] |
|
iter [MoreLabels.Hashtbl] |
Hashtbl.iter ~f tbl applies f to all bindings in table tbl .
|
iter [Map.S] |
iter f m applies f to all bindings in map m .
|
iter [ListLabels] |
iter ~f [a1; ...; an] applies function f in turn to
[a1; ...; an] .
|
iter [List] |
iter f [a1; ...; an] applies function f in turn to
[a1; ...; an] .
|
iter [Hashtbl.SeededS] |
|
iter [Hashtbl.S] |
|
iter [Hashtbl] |
Hashtbl.iter f tbl applies f to all bindings in table tbl .
|
iter [Float.ArrayLabels] |
iter ~f a applies function f in turn to all
the elements of a .
|
iter [Float.Array] |
iter f a applies function f in turn to all
the elements of a .
|
iter [Either] |
iter ~left ~right (Left v) is left v , and
iter ~left ~right (Right v) is right v .
|
iter [Dynarray] |
iter f a calls f on each element of a .
|
iter [BytesLabels] |
iter ~f s applies function f in turn to all the bytes of s .
|
iter [Bytes] |
iter f s applies function f in turn to all the bytes of s .
|
iter [ArrayLabels] |
iter ~f a applies function f in turn to all
the elements of a .
|
iter [Array] |
iter f a applies function f in turn to all
the elements of a .
|
iter2 [Seq] |
iter2 f xs ys invokes f x y successively for every pair (x, y) of
elements drawn synchronously from the sequences xs and ys .
|
iter2 [ListLabels] |
iter2 ~f [a1; ...; an] [b1; ...; bn] calls in turn
f a1 b1; ...; f an bn .
|
iter2 [List] |
iter2 f [a1; ...; an] [b1; ...; bn] calls in turn
f a1 b1; ...; f an bn .
|
iter2 [Float.ArrayLabels] |
Array.iter2 ~f a b applies function f to all the elements of a
and b .
|
iter2 [Float.Array] |
Array.iter2 f a b applies function f to all the elements of a
and b .
|
iter2 [ArrayLabels] |
iter2 ~f a b applies function f to all the elements of a
and b .
|
iter2 [Array] |
iter2 f a b applies function f to all the elements of a
and b .
|
iter_error [Result] |
iter_error f r is f e if r is Error e and () otherwise.
|
iterate [Seq] |
iterate f x is the infinite sequence whose elements are
x , f x , f (f x) , and so on.
|
iteri [String] |
iteri is like String.iter , but the function is also given the
corresponding character index.
|
iteri [StringLabels] |
iteri is like StringLabels.iter , but the function is also given the
corresponding character index.
|
iteri [Seq] |
iteri f xs invokes f i x successively
for every element x located at index i in the sequence xs .
|
iteri [ListLabels] |
Same as ListLabels.iter , but the function is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
iteri [List] |
Same as List.iter , but the function is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
iteri [Float.ArrayLabels] |
Same as Float.ArrayLabels.iter , but the
function is applied with the index of the element as first argument,
and the element itself as second argument.
|
iteri [Float.Array] |
Same as Float.Array.iter , but the
function is applied with the index of the element as first argument,
and the element itself as second argument.
|
iteri [Dynarray] |
iteri f a calls f i x for each x at index i in a .
|
iteri [BytesLabels] |
Same as BytesLabels.iter , but the function is applied to the index of
the byte as first argument and the byte itself as second
argument.
|
iteri [Bytes] |
Same as Bytes.iter , but the function is applied to the index of
the byte as first argument and the byte itself as second
argument.
|
iteri [ArrayLabels] |
Same as ArrayLabels.iter , but the
function is applied to the index of the element as first argument,
and the element itself as second argument.
|
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.
|
J |
join [Thread] |
join th suspends the execution of the calling thread
until the thread th has terminated.
|
join [Result] |
join rr is r if rr is Ok r and rr if rr is Error _ .
|
join [Option] |
join oo is Some v if oo is Some (Some v) and None otherwise.
|
join [Domain] |
join d blocks until domain d runs to completion.
|
K |
kasprintf [Format] |
Same as asprintf above, but instead of returning the string,
passes it to the first argument.
|
kbprintf [Printf] |
Same as bprintf , but instead of returning immediately,
passes the buffer to its first argument at the end of printing.
|
kdprintf [Format] |
Same as Format.dprintf above, but instead of returning immediately,
passes the suspended printer to its first argument at the end of printing.
|
kfprintf [Printf] |
Same as fprintf , but instead of returning immediately,
passes the out channel to its first argument at the end of printing.
|
kfprintf [Format] |
Same as fprintf above, but instead of returning immediately,
passes the formatter to its first argument at the end of printing.
|
kill [UnixLabels] |
kill ~pid ~signal sends signal number signal to the process
with id pid .
|
kill [Unix] |
kill pid signal sends signal number signal to the process
with id pid .
|
kind [Bigarray.Array3] |
Return the kind of the given Bigarray.
|
kind [Bigarray.Array2] |
Return the kind of the given Bigarray.
|
kind [Bigarray.Array1] |
Return the kind of the given Bigarray.
|
kind [Bigarray.Array0] |
Return the kind of the given Bigarray.
|
kind [Bigarray.Genarray] |
Return the kind of the given Bigarray.
|
kind_size_in_bytes [Bigarray] |
kind_size_in_bytes k is the number of bytes used to store
an element of type k .
|
kprintf [Printf] |
A deprecated synonym for ksprintf .
|
kscanf [Scanf] |
Same as Scanf.bscanf , but takes an additional function argument
ef that is called in case of error: if the scanning process or
some conversion fails, the scanning function aborts and calls the
error handling function ef with the formatted input channel and the
exception that aborted the scanning process as arguments.
|
ksprintf [Printf] |
Same as sprintf above, but instead of returning the string,
passes it to the first argument.
|
ksprintf [Format] |
Same as sprintf above, but instead of returning the string,
passes it to the first argument.
|
ksscanf [Scanf] |
|
L |
last_chars [Str] |
last_chars s n returns the last n characters of s .
|
last_non_constant_constructor_tag [Obj] |
|
layout [Bigarray.Array3] |
Return the layout of the given Bigarray.
|
layout [Bigarray.Array2] |
Return the layout of the given Bigarray.
|
layout [Bigarray.Array1] |
Return the layout of the given Bigarray.
|
layout [Bigarray.Array0] |
Return the layout of the given Bigarray.
|
layout [Bigarray.Genarray] |
Return the layout of the given Bigarray.
|
lazy_tag [Obj] |
|
ldexp [Stdlib] |
ldexp x n returns x *. 2 ** n .
|
ldexp [Float] |
ldexp x n returns x *. 2 ** n .
|
left [Either] |
|
length [Weak] |
Weak.length ar returns the length (number of elements) of
ar .
|
length [String] |
length s is the length (number of bytes/characters) of s .
|
length [StringLabels] |
length s is the length (number of bytes/characters) of s .
|
length [Stack] |
Return the number of elements in a stack.
|
length [Seq] |
length xs is the length of the sequence xs .
|
length [Queue] |
Return the number of elements in a queue.
|
length [Out_channel] |
Return the size (number of characters) of the regular file on which the
given channel is opened.
|
length [Obj.Ephemeron] |
return the number of keys
|
length [MoreLabels.Hashtbl.SeededS] |
|
length [MoreLabels.Hashtbl.S] |
|
length [MoreLabels.Hashtbl] |
Hashtbl.length tbl returns the number of bindings in tbl .
|
length [ListLabels] |
Return the length (number of elements) of the given list.
|
length [List] |
Return the length (number of elements) of the given list.
|
length [In_channel] |
Return the size (number of characters) of the regular file on which the
given channel is opened.
|
length [Hashtbl.SeededS] |
|
length [Hashtbl.S] |
|
length [Hashtbl] |
Hashtbl.length tbl returns the number of bindings in tbl .
|
length [Float.ArrayLabels] |
Return the length (number of elements) of the given floatarray.
|
length [Float.Array] |
Return the length (number of elements) of the given floatarray.
|
length [Ephemeron.Kn.Bucket] |
Returns an upper bound on the length of the bucket.
|
length [Ephemeron.K2.Bucket] |
Returns an upper bound on the length of the bucket.
|
length [Ephemeron.K1.Bucket] |
Returns an upper bound on the length of the bucket.
|
length [Ephemeron.SeededS] |
|
length [Ephemeron.S] |
|
length [Dynarray] |
length a is the number of elements in the array.
|
length [BytesLabels] |
Return the length (number of bytes) of the argument.
|
length [Bytes] |
Return the length (number of bytes) of the argument.
|
length [Buffer] |
Return the number of characters currently contained in the buffer.
|
length [ArrayLabels] |
Return the length (number of elements) of the given array.
|
length [Array] |
Return the length (number of elements) of the given array.
|
lexeme [Lexing] |
Lexing.lexeme lexbuf returns the string matched by
the regular expression.
|
lexeme_char [Lexing] |
Lexing.lexeme_char lexbuf i returns character number i in
the matched string.
|
lexeme_end [Lexing] |
Lexing.lexeme_end lexbuf returns the offset in the input stream
of the character following the last character of the matched
string.
|
lexeme_end_p [Lexing] |
Like lexeme_end , but return a complete position instead
of an offset.
|
lexeme_start [Lexing] |
Lexing.lexeme_start lexbuf returns the offset in the
input stream of the first character of the matched string.
|
lexeme_start_p [Lexing] |
Like lexeme_start , but return a complete position instead
of an offset.
|
lifecycle_name [Runtime_events] |
Return a string representation of a given lifecycle event type.
|
link [UnixLabels] |
link ?follow ~src ~dst creates a hard link named dst to the file
named src .
|
link [Unix] |
link ?follow src dst creates a hard link named dst to the file
named src .
|
listen [UnixLabels] |
Set up a socket for receiving connection requests.
|
listen [Unix] |
Set up a socket for receiving connection requests.
|
lnot [Stdlib] |
Bitwise logical negation.
|
loadfile [Dynlink] |
In bytecode: load the given bytecode object file (.cmo file) or
bytecode library file (.cma file), and link it with the running
program.
|
loadfile_private [Dynlink] |
Same as loadfile , except that the compilation units just loaded
are hidden (cannot be referenced) from other modules dynamically
loaded afterwards.
|
localtime [UnixLabels] |
Convert a time in seconds, as returned by UnixLabels.time , into a date and
a time.
|
localtime [Unix] |
Convert a time in seconds, as returned by Unix.time , into a date and
a time.
|
location [Printexc.Slot] |
location slot returns the location information of the slot,
if available, and None otherwise.
|
lock [Mutex] |
|
lockf [UnixLabels] |
lockf fd ~mode ~len puts a lock on a region of the file opened
as fd .
|
lockf [Unix] |
lockf fd mode len puts a lock on a region of the file opened
as fd .
|
log [Stdlib] |
|
log [Float] |
|
log [Complex] |
Natural logarithm (in base e ).
|
log10 [Stdlib] |
|
log10 [Float] |
|
log1p [Stdlib] |
log1p x computes log(1.0 +. x) (natural logarithm),
giving numerically-accurate results even if x is close to 0.0 .
|
log1p [Float] |
log1p x computes log(1.0 +. x) (natural logarithm),
giving numerically-accurate results even if x is close to 0.0 .
|
log2 [Float] |
|
logand [Nativeint] |
|
logand [Int64] |
|
logand [Int32] |
|
logand [Int] |
logand x y is the bitwise logical and of x and y .
|
lognot [Nativeint] |
Bitwise logical negation.
|
lognot [Int64] |
Bitwise logical negation.
|
lognot [Int32] |
Bitwise logical negation.
|
lognot [Int] |
lognot x is the bitwise logical negation of x .
|
logor [Nativeint] |
|
logor [Int64] |
|
logor [Int32] |
|
logor [Int] |
logor x y is the bitwise logical or of x and y .
|
logxor [Nativeint] |
Bitwise logical exclusive or.
|
logxor [Int64] |
Bitwise logical exclusive or.
|
logxor [Int32] |
Bitwise logical exclusive or.
|
logxor [Int] |
logxor x y is the bitwise logical exclusive or of x and y .
|
lookup_tables [CamlinternalOO] |
|
lowercase_ascii [String] |
lowercase_ascii s is s with all uppercase letters translated
to lowercase, using the US-ASCII character set.
|
lowercase_ascii [StringLabels] |
lowercase_ascii s is s with all uppercase letters translated
to lowercase, using the US-ASCII character set.
|
lowercase_ascii [Char] |
Convert the given character to its equivalent lowercase character,
using the US-ASCII character set.
|
lowercase_ascii [BytesLabels] |
Return a copy of the argument, with all uppercase letters
translated to lowercase, using the US-ASCII character set.
|
lowercase_ascii [Bytes] |
Return a copy of the argument, with all uppercase letters
translated to lowercase, using the US-ASCII character set.
|
lseek [UnixLabels.LargeFile] |
|
lseek [UnixLabels] |
Set the current position for a file descriptor, and return the resulting
offset (from the beginning of the file).
|
lseek [Unix.LargeFile] |
|
lseek [Unix] |
Set the current position for a file descriptor, and return the resulting
offset (from the beginning of the file).
|
lstat [UnixLabels.LargeFile] |
|
lstat [UnixLabels] |
Same as UnixLabels.stat , but in case the file is a symbolic link,
return the information for the link itself.
|
lstat [Unix.LargeFile] |
|
lstat [Unix] |
Same as Unix.stat , but in case the file is a symbolic link,
return the information for the link itself.
|
M |
magic [Obj] |
|
main_program_units [Dynlink] |
Return the list of compilation units that form the main program (i.e.
|
major [Gc] |
Do a minor collection and finish the current major collection cycle.
|
major_slice [Gc] |
major_slice n
Do a minor collection and a slice of major collection.
|
make [Type.Id] |
make () is a new type identifier.
|
make [String] |
make n c is a string of length n with each index holding the
character c .
|
make [StringLabels] |
make n c is a string of length n with each index holding the
character c .
|
make [Semaphore.Binary] |
make b returns a new binary semaphore.
|
make [Semaphore.Counting] |
make n returns a new counting semaphore, with initial value n .
|
make [Random.State] |
Create a new state and initialize it with the given seed.
|
make [Float.ArrayLabels] |
make n x returns a fresh floatarray of length n , initialized with x .
|
make [Float.Array] |
make n x returns a fresh floatarray of length n , initialized with x .
|
make [Ephemeron.Kn.Bucket] |
|
make [Ephemeron.Kn] |
|
make [Ephemeron.K2.Bucket] |
|
make [Ephemeron.K2] |
|
make [Ephemeron.K1.Bucket] |
|
make [Ephemeron.K1] |
Ephemeron.K1.make k d creates an ephemeron with key k and data d .
|
make [Dynarray] |
make n x is a new array of length n , filled with x .
|
make [BytesLabels] |
make n c returns a new byte sequence of length n , filled with
the byte c .
|
make [Bytes] |
make n c returns a new byte sequence of length n , filled with
the byte c .
|
make [Atomic] |
Create an atomic reference.
|
make [ArrayLabels] |
make n x returns a fresh array of length n ,
initialized with x .
|
make [Array] |
make n x returns a fresh array of length n ,
initialized with x .
|
make_class [CamlinternalOO] |
|
make_class_store [CamlinternalOO] |
|
make_contended [Atomic] |
Create an atomic reference that is alone on a cache line.
|
make_formatter [Format] |
make_formatter out flush returns a new formatter that outputs with
function out , and flushes with function flush .
|
make_iprintf [CamlinternalFormat] |
|
make_matrix [Float.ArrayLabels] |
make_matrix ~dimx ~dimy e returns a two-dimensional array
(an array of arrays) with first dimension dimx and
second dimension dimy , where all elements are initialized with e .
|
make_matrix [Float.Array] |
make_matrix dimx dimy e returns a two-dimensional array
(an array of arrays) with first dimension dimx and
second dimension dimy , where all elements are initialized with e .
|
make_matrix [ArrayLabels] |
make_matrix ~dimx ~dimy e returns a two-dimensional array
(an array of arrays) with first dimension dimx and
second dimension dimy .
|
make_matrix [Array] |
make_matrix dimx dimy e returns a two-dimensional array
(an array of arrays) with first dimension dimx and
second dimension dimy .
|
make_printf [CamlinternalFormat] |
|
make_self_init [Random.State] |
Create a new state and initialize it with a random seed chosen
in a system-dependent way.
|
make_symbolic_output_buffer [Format] |
make_symbolic_output_buffer () returns a fresh buffer for
symbolic output.
|
make_synchronized_formatter [Format] |
make_synchronized_formatter out flush returns the key to the domain-local
state that holds the domain-local formatter that outputs with function
out , and flushes with function flush .
|
map [String] |
map f s is the string resulting from applying f to all the
characters of s in increasing order.
|
map [StringLabels] |
map f s is the string resulting from applying f to all the
characters of s in increasing order.
|
map [Set.S] |
map f s is the set whose elements are f a0 ,f a1 ...
|
map [Seq] |
map f xs is the image of the sequence xs through the
transformation f .
|
map [Result] |
map f r is Ok (f v) if r is Ok v and r if r is Error _ .
|
map [Option] |
map f o is None if o is None and Some (f v) if o is Some v .
|
map [MoreLabels.Set.S] |
map ~f s is the set whose elements are f a0 ,f a1 ...
|
map [MoreLabels.Map.S] |
map ~f m returns a map with same domain as m , where the
associated value a of all bindings of m has been
replaced by the result of the application of f to a .
|
map [Map.S] |
map f m returns a map with same domain as m , where the
associated value a of all bindings of m has been
replaced by the result of the application of f to a .
|
map [ListLabels] |
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 [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 [Lazy] |
map f x returns a suspension that, when forced,
forces x and applies f to its value.
|
map [Float.ArrayLabels] |
map ~f a applies function f to all the elements of a ,
and builds a floatarray with the results returned by f .
|
map [Float.Array] |
map f a applies function f to all the elements of a ,
and builds a floatarray with the results returned by f .
|
map [Either] |
map ~left ~right (Left v) is Left (left v) ,
map ~left ~right (Right v) is Right (right v) .
|
map [Dynarray] |
map f a is a new array of elements of the form f x
for each element x of a .
|
map [BytesLabels] |
map ~f s applies function f in turn to all the bytes of s (in
increasing index order) and stores the resulting bytes in a new sequence
that is returned as the result.
|
map [Bytes] |
map f s applies function f in turn to all the bytes of s (in
increasing index order) and stores the resulting bytes in a new sequence
that is returned as the result.
|
map [ArrayLabels] |
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.(length a - 1) |] .
|
map [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.(length a - 1) |] .
|
map2 [Seq] |
map2 f xs ys is the sequence of the elements f x y ,
where the pairs (x, y) are drawn synchronously from the
sequences xs and ys .
|
map2 [ListLabels] |
map2 ~f [a1; ...; an] [b1; ...; bn] is
[f a1 b1; ...; f an bn] .
|
map2 [List] |
map2 f [a1; ...; an] [b1; ...; bn] is
[f a1 b1; ...; f an bn] .
|
map2 [Float.ArrayLabels] |
map2 ~f a b applies function f to all the elements of a
and b , and builds a floatarray with the results returned by f :
[| f a.(0) b.(0); ...; f a.(length a - 1) b.(length b - 1)|] .
|
map2 [Float.Array] |
map2 f a b applies function f to all the elements of a
and b , and builds a floatarray with the results returned by f :
[| f a.(0) b.(0); ...; f a.(length a - 1) b.(length b - 1)|] .
|
map2 [ArrayLabels] |
map2 ~f a b applies function f to all the elements of a
and b , and builds an array with the results returned by f :
[| f a.(0) b.(0); ...; f a.(length a - 1) b.(length b - 1)|] .
|
map2 [Array] |
map2 f a b applies function f to all the elements of a
and b , and builds an array with the results returned by f :
[| f a.(0) b.(0); ...; f a.(length a - 1) b.(length b - 1)|] .
|
map_error [Result] |
map_error f r is Error (f e) if r is Error e and r if
r is Ok _ .
|
map_file [UnixLabels] |
Memory mapping of a file as a Bigarray.
|
map_file [Unix] |
Memory mapping of a file as a Bigarray.
|
map_from_array [Float.ArrayLabels] |
map_from_array ~f a applies function f to all the elements of a ,
and builds a floatarray with the results returned by f .
|
map_from_array [Float.Array] |
map_from_array f a applies function f to all the elements of a ,
and builds a floatarray with the results returned by f .
|
map_inplace [Float.ArrayLabels] |
map_inplace f a applies function f to all elements of a ,
and updates their values in place.
|
map_inplace [Float.Array] |
map_inplace f a applies function f to all elements of a ,
and updates their values in place.
|
map_inplace [ArrayLabels] |
map_inplace ~f a applies function f to all elements of a ,
and updates their values in place.
|
map_inplace [Array] |
map_inplace f a applies function f to all elements of a ,
and updates their values in place.
|
map_left [Either] |
map_left f e is Left (f v) if e is Left v
and e if e is Right _ .
|
map_product [Seq] |
The sequence map_product f xs ys is the image through f
of the Cartesian product of the sequences xs and ys .
|
map_right [Either] |
map_right f e is Right (f v) if e is Right v
and e if e is Left _ .
|
map_to_array [Float.ArrayLabels] |
map_to_array ~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.(length a - 1) |] .
|
map_to_array [Float.Array] |
map_to_array 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.(length a - 1) |] .
|
map_val [Lazy] |
map_val f x applies f directly if x is already forced,
otherwise it behaves as map f x .
|
mapi [String] |
mapi f s is like String.map but the index of the character is also
passed to f .
|
mapi [StringLabels] |
mapi ~f s is like StringLabels.map but the index of the character is also
passed to f .
|
mapi [Seq] |
mapi is analogous to map , but applies the function f to
an index and an element.
|
mapi [MoreLabels.Map.S] |
Same as MoreLabels.Map.S.map , but the function receives as arguments both the
key and the associated value for each binding of the map.
|
mapi [Map.S] |
Same as Map.S.map , but the function receives as arguments both the
key and the associated value for each binding of the map.
|
mapi [ListLabels] |
Same as ListLabels.map , but the function is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
mapi [List] |
Same as List.map , but the function is applied to the index of
the element as first argument (counting from 0), and the element
itself as second argument.
|
mapi [Float.ArrayLabels] |
Same as Float.ArrayLabels.map , but the
function is applied to the index of the element as first argument,
and the element itself as second argument.
|
mapi [Float.Array] |
Same as Float.Array.map , but the
function is applied to the index of the element as first argument,
and the element itself as second argument.
|
mapi [Dynarray] |
mapi f a is a new array of elements of the form f i x
for each element x of a at index i .
|
mapi [BytesLabels] |
mapi ~f s calls f with each character of s and its
index (in increasing index order) and stores the resulting bytes
in a new sequence that is returned as the result.
|
mapi [Bytes] |
mapi f s calls f with each character of s and its
index (in increasing index order) and stores the resulting bytes
in a new sequence that is returned as the result.
|
mapi [ArrayLabels] |
Same as ArrayLabels.map , but the
function is applied to the index of the element as first argument,
and the element itself as second argument.
|
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_inplace [Float.ArrayLabels] |
Same as Float.ArrayLabels.map_inplace , but the function is applied to the index of the
element as first argument, and the element itself as second argument.
|
mapi_inplace [Float.Array] |
Same as Float.Array.map_inplace , but the function is applied to the index of the
element as first argument, and the element itself as second argument.
|
mapi_inplace [ArrayLabels] |
Same as ArrayLabels.map_inplace , but the function is applied to the index of the
element as first argument, and the element itself as second argument.
|
mapi_inplace [Array] |
Same as Array.map_inplace , but the function is applied to the index of the
element as first argument, and the element itself as second argument.
|
match_beginning [Str] |
match_beginning() returns the position of the first character
of the substring that was matched by the last call to a matching
or searching function (see Str.matched_string for details).
|
match_end [Str] |
match_end() returns the position of the character following the
last character of the substring that was matched by the last call
to a matching or searching function (see Str.matched_string for
details).
|
match_with [Effect.Deep] |
match_with f v h runs the computation f v in the handler h .
|
matched_group [Str] |
matched_group n s returns the substring of s that was matched
by the n th group \(...\) of the regular expression that was
matched by the last call to a matching or searching function (see
Str.matched_string for details).
|
matched_string [Str] |
matched_string s returns the substring of s that was matched
by the last call to one of the following matching or searching
functions: Str.string_match , Str.search_forward , Str.search_backward , Str.string_partial_match , Str.global_substitute , Str.substitute_first
provided that none of the following functions was called in between: Str.global_replace , Str.replace_first , Str.split , Str.bounded_split , Str.split_delim , Str.bounded_split_delim , Str.full_split , Str.bounded_full_split
Note: in the case of global_substitute and substitute_first ,
a call to matched_string is only valid within the subst argument,
not after global_substitute or substitute_first returns.
|
max [Uchar] |
|
max [Stdlib] |
Return the greater of the two arguments.
|
max [Nativeint] |
Return the greater of the two arguments.
|
max [Int64] |
Return the greater of the two arguments.
|
max [Int32] |
Return the greater of the two arguments.
|
max [Int] |
Return the greater of the two arguments.
|
max [Float] |
max x y returns the maximum of x and y .
|
max_array_length [Sys] |
Maximum length of a normal array (i.e.
|
max_binding [MoreLabels.Map.S] |
|
max_binding [Map.S] |
Same as Map.S.min_binding , but returns the binding with
the largest key in the given map.
|
max_binding_opt [MoreLabels.Map.S] |
|
max_binding_opt [Map.S] |
|
max_elt [Set.S] |
Same as Set.S.min_elt , but returns the largest element of the
given set.
|
max_elt [MoreLabels.Set.S] |
|
max_elt_opt [Set.S] |
|
max_elt_opt [MoreLabels.Set.S] |
|
max_ephe_length [Obj.Ephemeron] |
Maximum length of an ephemeron, ie the maximum number of keys an
ephemeron could contain
|
max_float [Stdlib] |
The largest positive finite value of type float .
|
max_float [Float] |
The largest positive finite value of type float .
|
max_floatarray_length [Sys] |
Maximum length of a floatarray.
|
max_int [Stdlib] |
The greatest representable integer.
|
max_int [Nativeint] |
The greatest representable native integer,
either 231 - 1 on a 32-bit platform,
or 263 - 1 on a 64-bit platform.
|
max_int [Int64] |
The greatest representable 64-bit integer, 263 - 1.
|
max_int [Int32] |
The greatest representable 32-bit integer, 231 - 1.
|
max_int [Int] |
max_int is the greatest representable integer,
2 Sys.int_size - 1 -1 .
|
max_num [Float] |
max_num x y returns the maximum of x and y treating nan as
missing values.
|
max_string_length [Sys] |
Maximum length of strings and byte sequences.
|
mem [Weak.S] |
mem t x returns true if there is at least one instance
of x in t , false otherwise.
|
mem [Set.S] |
mem x s tests whether x belongs to the set s .
|
mem [MoreLabels.Set.S] |
mem x s tests whether x belongs to the set s .
|
mem [MoreLabels.Map.S] |
mem x m returns true if m contains a binding for x ,
and false otherwise.
|
mem [MoreLabels.Hashtbl.SeededS] |
|
mem [MoreLabels.Hashtbl.S] |
|
mem [MoreLabels.Hashtbl] |
Hashtbl.mem tbl x checks if x is bound in tbl .
|
mem [Map.S] |
mem x m returns true if m contains a binding for x ,
and false otherwise.
|
mem [ListLabels] |
mem a ~set is true if and only if a is equal
to an element of set .
|
mem [List] |
mem a set is true if and only if a is equal
to an element of set .
|
mem [Hashtbl.SeededS] |
|
mem [Hashtbl.S] |
|
mem [Hashtbl] |
Hashtbl.mem tbl x checks if x is bound in tbl .
|
mem [Float.ArrayLabels] |
mem a ~set is true if and only if there is an element of set that is
structurally equal to a , i.e.
|
mem [Float.Array] |
mem a set is true if and only if there is an element of set that is
structurally equal to a , i.e.
|
mem [Ephemeron.SeededS] |
|
mem [Ephemeron.S] |
|
mem [ArrayLabels] |
mem a ~set is true if and only if a is structurally equal
to an element of set (i.e.
|
mem [Array] |
mem a set is true if and only if a is structurally equal
to an element of set (i.e.
|
mem_assoc [ListLabels] |
Same as ListLabels.assoc , but simply return true if a binding exists,
and false if no bindings exist for the given key.
|
mem_assoc [List] |
Same as List.assoc , but simply return true if a binding exists,
and false if no bindings exist for the given key.
|
mem_assq [ListLabels] |
Same as ListLabels.mem_assoc , but uses physical equality instead of
structural equality to compare keys.
|
mem_assq [List] |
Same as List.mem_assoc , but uses physical equality instead of
structural equality to compare keys.
|
mem_ieee [Float.ArrayLabels] |
|
mem_ieee [Float.Array] |
Same as Float.Array.mem , but uses IEEE equality instead of structural equality.
|
memoize [Seq] |
The sequence memoize xs has the same elements as the sequence xs .
|
memq [ListLabels] |
Same as ListLabels.mem , but uses physical equality instead of structural
equality to compare list elements.
|
memq [List] |
Same as List.mem , but uses physical equality instead of structural
equality to compare list elements.
|
memq [ArrayLabels] |
Same as ArrayLabels.mem , but uses physical equality
instead of structural equality to compare array elements.
|
memq [Array] |
Same as Array.mem , but uses physical equality
instead of structural equality to compare array elements.
|
merge [Weak.S] |
merge t x returns an instance of x found in t if any,
or else adds x to t and return x .
|
merge [MoreLabels.Map.S] |
merge ~f m1 m2 computes a map whose keys are a subset of the keys of
m1 and of m2 .
|
merge [Map.S] |
merge f m1 m2 computes a map whose keys are a subset of the keys of
m1 and of m2 .
|
merge [ListLabels] |
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 containing all the elements of l1 and l2 .
|
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 containing all the elements of l1 and l2 .
|
min [Uchar] |
|
min [Stdlib] |
Return the smaller of the two arguments.
|
min [Nativeint] |
Return the smaller of the two arguments.
|
min [Int64] |
Return the smaller of the two arguments.
|
min [Int32] |
Return the smaller of the two arguments.
|
min [Int] |
Return the smaller of the two arguments.
|
min [Float] |
min x y returns the minimum of x and y .
|
min_binding [MoreLabels.Map.S] |
Return the binding with the smallest key in a given map
(with respect to the Ord.compare ordering), or raise
Not_found if the map is empty.
|
min_binding [Map.S] |
Return the binding with the smallest key in a given map
(with respect to the Ord.compare ordering), or raise
Not_found if the map is empty.
|
min_binding_opt [MoreLabels.Map.S] |
Return the binding with the smallest key in the given map
(with respect to the Ord.compare ordering), or None
if the map is empty.
|
min_binding_opt [Map.S] |
Return the binding with the smallest key in the given map
(with respect to the Ord.compare ordering), or None
if the map is empty.
|
min_elt [Set.S] |
Return the smallest element of the given set
(with respect to the Ord.compare ordering), or raise
Not_found if the set is empty.
|
min_elt [MoreLabels.Set.S] |
Return the smallest element of the given set
(with respect to the Ord.compare ordering), or raise
Not_found if the set is empty.
|
min_elt_opt [Set.S] |
Return the smallest element of the given set
(with respect to the Ord.compare ordering), or None
if the set is empty.
|
min_elt_opt [MoreLabels.Set.S] |
Return the smallest element of the given set
(with respect to the Ord.compare ordering), or None
if the set is empty.
|
min_float [Stdlib] |
The smallest positive, non-zero, non-denormalized value of type float .
|
min_float [Float] |
The smallest positive, non-zero, non-denormalized value of type float .
|
min_int [Stdlib] |
The smallest representable integer.
|
min_int [Nativeint] |
The smallest representable native integer,
either -231 on a 32-bit platform,
or -263 on a 64-bit platform.
|
min_int [Int64] |
The smallest representable 64-bit integer, -263.
|
min_int [Int32] |
The smallest representable 32-bit integer, -231.
|
min_int [Int] |
min_int is the smallest representable integer,
-2 Sys.int_size - 1 .
|
min_max [Float] |
min_max x y is (min x y, max x y) , just more efficient.
|
min_max_num [Float] |
min_max_num x y is (min_num x y, max_num x y) , just more
efficient.
|
min_num [Float] |
min_num x y returns the minimum of x and y treating nan as
missing values.
|
minor [Gc] |
Trigger a minor collection.
|
minor_words [Gc] |
Number of words allocated in the minor heap by this domain or potentially
previous domains.
|
minus_one [Nativeint] |
|
minus_one [Int64] |
|
minus_one [Int32] |
|
minus_one [Int] |
minus_one is the integer -1 .
|
minus_one [Float] |
|
mkdir [UnixLabels] |
|
mkdir [Unix] |
Create a directory with the given permissions (see Unix.umask ).
|
mkdir [Sys] |
Create a directory with the given permissions.
|
mkfifo [UnixLabels] |
|
mkfifo [Unix] |
Create a named pipe with the given permissions (see Unix.umask ).
|
mktime [UnixLabels] |
Convert a date and time, specified by the tm argument, into
a time in seconds, as returned by UnixLabels.time .
|
mktime [Unix] |
Convert a date and time, specified by the tm argument, into
a time in seconds, as returned by Unix.time .
|
mod_float [Stdlib] |
mod_float a b returns the remainder of a with respect to
b .
|
modf [Stdlib] |
modf f returns the pair of the fractional and integral
part of f .
|
modf [Float] |
modf f returns the pair of the fractional and integral
part of f .
|
mul [Nativeint] |
|
mul [Int64] |
|
mul [Int32] |
|
mul [Int] |
mul x y is the multiplication x * y .
|
mul [Float] |
Floating-point multiplication.
|
mul [Complex] |
|
N |
name [Runtime_events.User] |
name t is the unique identifying name of event t .
|
name [Printexc.Slot] |
name slot returns the name of the function or definition
enclosing the location referred to by the slot.
|
name [Obj.Extension_constructor] |
|
name_of_input [Scanf.Scanning] |
Scanning.name_of_input ic returns the name of the character source
for the given Scanf.Scanning.in_channel formatted input channel.
|
nan [Stdlib] |
A special floating-point value denoting the result of an
undefined operation such as 0.0 /. 0.0 .
|
nan [Float] |
A special floating-point value denoting the result of an
undefined operation such as 0.0 /. 0.0 .
|
narrow [CamlinternalOO] |
|
nativebits [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.
|
nativebits [Random] |
|
nativeint [Random.State] |
|
nativeint [Random] |
Random.nativeint bound returns a random integer between 0 (inclusive)
and bound (exclusive).
|
nativeint [Bigarray] |
|
nativeint_in_range [Random.State] |
|
nativeint_in_range [Random] |
Random.nativeint_in_range ~min ~max returns a random integer
between min (inclusive) and max (inclusive).
|
neg [Nativeint] |
|
neg [Int64] |
|
neg [Int32] |
|
neg [Int] |
|
neg [Float] |
|
neg [Complex] |
|
neg_infinity [Stdlib] |
|
neg_infinity [Float] |
|
negate [Fun] |
negate p is the negation of the predicate function p .
|
new_block [Obj] |
|
new_channel [Event] |
|
new_key [Domain.DLS] |
new_key f returns a new key bound to initialiser f for accessing
, domain-local variables.
|
new_line [Lexing] |
Update the lex_curr_p field of the lexbuf to reflect the start
of a new line.
|
new_method [CamlinternalOO] |
|
new_methods_variables [CamlinternalOO] |
|
new_variable [CamlinternalOO] |
|
next_after [Float] |
next_after x y returns the next representable floating-point
value following x in the direction of y .
|
nice [UnixLabels] |
Change the process priority.
|
nice [Unix] |
Change the process priority.
|
no_scan_tag [Obj] |
|
none [Option] |
|
norm [Complex] |
Norm: given x + i.y , returns sqrt(x^2 + y^2) .
|
norm2 [Complex] |
Norm squared: given x + i.y , returns x^2 + y^2 .
|
not [Stdlib] |
|
not [Bool] |
not b is the boolean negation of b .
|
nth [ListLabels] |
Return the n -th element of the given list.
|
nth [List] |
Return the n -th element of the given list.
|
nth [Buffer] |
Get the n-th character of the buffer.
|
nth_dim [Bigarray.Genarray] |
Genarray.nth_dim a n returns the n -th dimension of the
Bigarray a .
|
nth_opt [ListLabels] |
Return the n -th element of the given list.
|
nth_opt [List] |
Return the n -th element of the given list.
|
null [Filename] |
null is "/dev/null" on POSIX and "NUL" on Windows.
|
null_tracker [Gc.Memprof] |
Default callbacks simply return None or ()
|
num_dims [Bigarray.Genarray] |
Return the number of dimensions of the given Bigarray.
|
O |
obj [Obj] |
|
object_tag [Obj] |
|
ocaml_release [Sys] |
ocaml_release is the version of OCaml.
|
ocaml_version [Sys] |
ocaml_version is the version of OCaml.
|
of_array [Dynarray] |
of_array arr returns a dynamic array corresponding to the
fixed-sized array a .
|
of_array [Bigarray.Array3] |
Build a three-dimensional Bigarray initialized from the
given array of arrays of arrays.
|
of_array [Bigarray.Array2] |
Build a two-dimensional Bigarray initialized from the
given array of arrays.
|
of_array [Bigarray.Array1] |
Build a one-dimensional Bigarray initialized from the
given array.
|
of_binary_string [Random.State] |
|
of_bytes [String] |
Return a new string that contains the same bytes as the given byte
sequence.
|
of_bytes [StringLabels] |
Return a new string that contains the same bytes as the given byte
sequence.
|
of_char [Uchar] |
of_char c is c as a Unicode character.
|
of_dispenser [Seq] |
of_dispenser it is the sequence of the elements produced by the
dispenser it .
|
of_float [Nativeint] |
Convert the given floating-point number to a native integer,
discarding the fractional part (truncate towards 0).
|
of_float [Int64] |
Convert the given floating-point number to a 64-bit integer,
discarding the fractional part (truncate towards 0).
|
of_float [Int32] |
Convert the given floating-point number to a 32-bit integer,
discarding the fractional part (truncate towards 0).
|
of_float [Int] |
of_float x truncates x to an integer.
|
of_hex [Digest.S] |
Convert a hexadecimal representation back into the corresponding digest.
|
of_hex [Digest] |
Convert a hexadecimal representation back into the corresponding digest.
|
of_int [Uchar] |
of_int i is i as a Unicode character.
|
of_int [Nativeint] |
Convert the given integer (type int ) to a native integer
(type nativeint ).
|
of_int [Int64] |
Convert the given integer (type int ) to a 64-bit integer
(type int64 ).
|
of_int [Int32] |
Convert the given integer (type int ) to a 32-bit integer
(type int32 ).
|
of_int [Float] |
Convert an integer to floating-point.
|
of_int32 [Nativeint] |
Convert the given 32-bit integer (type int32 )
to a native integer.
|
of_int32 [Int64] |
Convert the given 32-bit integer (type int32 )
to a 64-bit integer (type int64 ).
|
of_list [Set.S] |
of_list l creates a set from a list of elements.
|
of_list [MoreLabels.Set.S] |
of_list l creates a set from a list of elements.
|
of_list [MoreLabels.Map.S] |
of_list bs adds the bindings of bs to the empty map,
in list order (if a key is bound twice in bs the last one
takes over).
|
of_list [Map.S] |
of_list bs adds the bindings of bs to the empty map,
in list order (if a key is bound twice in bs the last one
takes over).
|
of_list [Float.ArrayLabels] |
of_list l returns a fresh floatarray containing the elements
of l .
|
of_list [Float.Array] |
of_list l returns a fresh floatarray containing the elements
of l .
|
of_list [Dynarray] |
of_list l is the array containing the elements of l in
the same order.
|
of_list [ArrayLabels] |
of_list l returns a fresh array containing the elements
of l .
|
of_list [Array] |
of_list l returns a fresh array containing the elements
of l .
|
of_nativeint [Int64] |
Convert the given native integer (type nativeint )
to a 64-bit integer (type int64 ).
|
of_seq [String] |
of_seq s is a string made of the sequence's characters.
|
of_seq [StringLabels] |
of_seq s is a string made of the sequence's characters.
|
of_seq [Stack] |
Create a stack from the sequence.
|
of_seq [Set.S] |
Build a set from the given bindings
|
of_seq [Queue] |
Create a queue from a sequence.
|
of_seq [MoreLabels.Set.S] |
Build a set from the given bindings
|
of_seq [MoreLabels.Map.S] |
Build a map from the given bindings
|
of_seq [MoreLabels.Hashtbl.SeededS] |
|
of_seq [MoreLabels.Hashtbl.S] |
|
of_seq [MoreLabels.Hashtbl] |
Build a table from the given bindings.
|
of_seq [Map.S] |
Build a map from the given bindings
|
of_seq [ListLabels] |
Create a list from a sequence.
|
of_seq [List] |
Create a list from a sequence.
|
of_seq [Hashtbl.SeededS] |
|
of_seq [Hashtbl.S] |
|
of_seq [Hashtbl] |
Build a table from the given bindings.
|
of_seq [Float.ArrayLabels] |
Create an array from the generator.
|
of_seq [Float.Array] |
Create an array from the generator.
|
of_seq [Ephemeron.SeededS] |
|
of_seq [Ephemeron.S] |
|
of_seq [Dynarray] |
of_seq seq is an array containing the same elements as seq .
|
of_seq [BytesLabels] |
Create a string from the generator
|
of_seq [Bytes] |
Create a string from the generator
|
of_seq [Buffer] |
Create a buffer from the generator
|
of_seq [ArrayLabels] |
Create an array from the generator
|
of_seq [Array] |
Create an array from the generator
|
of_string [Nativeint] |
Convert the given string to a native integer.
|
of_string [Int64] |
Convert the given string to a 64-bit integer.
|
of_string [Int32] |
Convert the given string to a 32-bit integer.
|
of_string [Float] |
Convert the given string to a float.
|
of_string [BytesLabels] |
Return a new byte sequence that contains the same bytes as the
given string.
|
of_string [Bytes] |
Return a new byte sequence that contains the same bytes as the
given string.
|
of_string_opt [Nativeint] |
Same as of_string , but return None instead of raising.
|
of_string_opt [Int64] |
Same as of_string , but return None instead of raising.
|
of_string_opt [Int32] |
Same as of_string , but return None instead of raising.
|
of_string_opt [Float] |
Same as of_string , but returns None instead of raising.
|
of_val [Obj.Extension_constructor] |
|
of_value [Bigarray.Array0] |
Build a zero-dimensional Bigarray initialized from the
given value.
|
ok [Result] |
|
once [Seq] |
The sequence once xs has the same elements as the sequence xs .
|
one [Nativeint] |
|
one [Int64] |
|
one [Int32] |
|
one [Int] |
|
one [Float] |
|
one [Complex] |
|
opaque_identity [Sys] |
For the purposes of optimization, opaque_identity behaves like an
unknown (and thus possibly side-effecting) function.
|
open_bin [Out_channel] |
Open the named file for writing, and return a new output channel on that
file, positioned at the beginning of the file.
|
open_bin [In_channel] |
Open the named file for reading, and return a new input channel on that
file, positioned at the beginning of the file.
|
open_box [Format] |
pp_open_box ppf d opens a new compacting pretty-printing box with
offset d in the formatter ppf .
|
open_box_of_string [CamlinternalFormat] |
|
open_connection [UnixLabels] |
Connect to a server at the given address.
|
open_connection [Unix] |
Connect to a server at the given address.
|
open_gen [Out_channel] |
open_gen mode perm filename opens the named file for writing, as described
above.
|
open_gen [In_channel] |
open_gen mode perm filename opens the named file for reading, as described
above.
|
open_hbox [Format] |
pp_open_hbox ppf () opens a new 'horizontal' pretty-printing box.
|
open_hovbox [Format] |
pp_open_hovbox ppf d opens a new 'horizontal-or-vertical'
pretty-printing box with offset d .
|
open_hvbox [Format] |
pp_open_hvbox ppf d opens a new 'horizontal/vertical' pretty-printing box
with offset d .
|
open_in [Stdlib] |
Open the named file for reading, and return a new input channel
on that file, positioned at the beginning of the file.
|
open_in [Scanf.Scanning] |
Scanning.open_in fname returns a Scanf.Scanning.in_channel formatted input
channel for bufferized reading in text mode from file fname .
|
open_in_bin [Stdlib] |
Same as open_in , but the file is opened in binary mode,
so that no translation takes place during reads.
|
open_in_bin [Scanf.Scanning] |
Scanning.open_in_bin fname returns a Scanf.Scanning.in_channel formatted
input channel for bufferized reading in binary mode from file fname .
|
open_in_gen [Stdlib] |
open_in_gen mode perm filename opens the named file for reading,
as described above.
|
open_out [Stdlib] |
Open the named file for writing, and return a new output channel
on that file, positioned at the beginning of the file.
|
open_out_bin [Stdlib] |
Same as open_out , but the file is opened in binary mode,
so that no translation takes place during writes.
|
open_out_gen [Stdlib] |
open_out_gen mode perm filename opens the named file for writing,
as described above.
|
open_process [UnixLabels] |
Same as UnixLabels.open_process_out , but redirects both the standard input
and standard output of the command to pipes connected to the two
returned channels.
|
open_process [Unix] |
Same as Unix.open_process_out , but redirects both the standard input
and standard output of the command to pipes connected to the two
returned channels.
|
open_process_args [UnixLabels] |
open_process_args prog args runs the program prog with arguments
args .
|
open_process_args [Unix] |
open_process_args prog args runs the program prog with arguments
args .
|
open_process_args_full [UnixLabels] |
|
open_process_args_full [Unix] |
Similar to Unix.open_process_args , but the third argument specifies the
environment passed to the new process.
|
open_process_args_in [UnixLabels] |
|
open_process_args_in [Unix] |
|
open_process_args_out [UnixLabels] |
|
open_process_args_out [Unix] |
|
open_process_full [UnixLabels] |
|
open_process_full [Unix] |
Similar to Unix.open_process , but the second argument specifies
the environment passed to the command.
|
open_process_in [UnixLabels] |
High-level pipe and process management.
|
open_process_in [Unix] |
High-level pipe and process management.
|
open_process_out [UnixLabels] |
|
open_process_out [Unix] |
|
open_stag [Format] |
pp_open_stag ppf t opens the semantic tag named t .
|
open_tbox [Format] |
open_tbox () opens a new tabulation box.
|
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.
|
open_text [Out_channel] |
Same as Out_channel.open_bin , but the file is opened in text mode, so that newline
translation takes place during writes.
|
open_text [In_channel] |
Same as In_channel.open_bin , but the file is opened in text mode, so that newline
translation takes place during reads.
|
open_vbox [Format] |
pp_open_vbox ppf d opens a new 'vertical' pretty-printing box
with offset d .
|
opendir [UnixLabels] |
Open a descriptor on a directory
|
opendir [Unix] |
Open a descriptor on a directory
|
openfile [UnixLabels] |
Open the named file with the given flags.
|
openfile [Unix] |
Open the named file with the given flags.
|
os_type [Sys] |
Operating system currently executing the OCaml program.
|
out_channel_length [Stdlib.LargeFile] |
|
out_channel_length [Stdlib] |
Return the size (number of characters) of the regular file
on which the given channel is opened.
|
out_channel_of_descr [UnixLabels] |
Create an output channel writing on the given descriptor.
|
out_channel_of_descr [Unix] |
Create an output channel writing on the given descriptor.
|
out_of_heap_tag [Obj] |
|
output [Stdlib] |
output oc buf pos len writes len characters from byte sequence buf ,
starting at offset pos , to the given output channel oc .
|
output [Out_channel] |
output oc buf pos len writes len characters from byte sequence buf ,
starting at offset pos , to the given output channel oc .
|
output [Digest.S] |
Write a digest on the given output channel.
|
output [Digest] |
Write a digest on the given output channel.
|
output_acc [CamlinternalFormat] |
|
output_bigarray [Out_channel] |
|
output_binary_int [Stdlib] |
Write one integer in binary format (4 bytes, big-endian)
on the given output channel.
|
output_buffer [Buffer] |
output_buffer oc b writes the current contents of buffer b
on the output channel oc .
|
output_byte [Stdlib] |
Write one 8-bit integer (as the single character with that code)
on the given output channel.
|
output_byte [Out_channel] |
Write one 8-bit integer (as the single character with that code) on the
given output channel.
|
output_bytes [Stdlib] |
Write the byte sequence on the given output channel.
|
output_bytes [Out_channel] |
Write the byte sequence on the given output channel.
|
output_char [Stdlib] |
Write the character on the given output channel.
|
output_char [Out_channel] |
Write the character on the given output channel.
|
output_string [Stdlib] |
Write the string on the given output channel.
|
output_string [Out_channel] |
Write the string on the given output channel.
|
output_substring [Stdlib] |
Same as output but take a string as argument instead of
a byte sequence.
|
output_substring [Out_channel] |
|
output_value [Stdlib] |
Write the representation of a structured value of any type
to a channel.
|
over_max_boxes [Format] |
Tests if the maximum number of pretty-printing boxes allowed have already
been opened.
|
P |
param_format_of_ignored_format [CamlinternalFormat] |
|
params [CamlinternalOO] |
|
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_and_expand_argv_dynamic [Arg] |
Same as Arg.parse_argv_dynamic , except that the argv argument is a
reference and may be updated during the parsing of Expand arguments.
|
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_argv_dynamic [Arg] |
Same as Arg.parse_argv , except that the speclist argument is a
reference and may be updated during the parsing.
|
parse_dynamic [Arg] |
Same as Arg.parse , except that the speclist argument is a reference
and may be updated during the parsing.
|
parse_expand [Arg] |
Same as Arg.parse , except that the Expand arguments are allowed and
the Arg.current reference is not updated.
|
partition [Set.S] |
partition f s returns a pair of sets (s1, s2) , where
s1 is the set of all the elements of s that satisfy the
predicate f , and s2 is the set of all the elements of
s that do not satisfy f .
|
partition [Seq] |
partition p xs returns a pair of the subsequence of the elements
of xs that satisfy p and the subsequence of the elements of
xs that do not satisfy p .
|
partition [MoreLabels.Set.S] |
partition ~f s returns a pair of sets (s1, s2) , where
s1 is the set of all the elements of s that satisfy the
predicate f , and s2 is the set of all the elements of
s that do not satisfy f .
|
partition [MoreLabels.Map.S] |
partition ~f m returns a pair of maps (m1, m2) , where
m1 contains all the bindings of m that satisfy the
predicate f , and m2 is the map with all the bindings of
m that do not satisfy f .
|
partition [Map.S] |
partition f m returns a pair of maps (m1, m2) , where
m1 contains all the bindings of m that satisfy the
predicate f , and m2 is the map with all the bindings of
m that do not satisfy f .
|
partition [ListLabels] |
partition ~f l returns a pair of lists (l1, l2) , where
l1 is the list of all the elements of l that
satisfy the predicate f , and l2 is the list of all the
elements of l that do not satisfy f .
|
partition [List] |
partition f l returns a pair of lists (l1, l2) , where
l1 is the list of all the elements of l that
satisfy the predicate f , and l2 is the list of all the
elements of l that do not satisfy f .
|
partition_map [Seq] |
partition_map f xs returns a pair of sequences (ys, zs) , where:
|
partition_map [ListLabels] |
partition_map f l returns a pair of lists (l1, l2) such that,
for each element x of the input list l : if f x is Left y1 , then y1 is in l1 , and, if f x is Right y2 , then y2 is in l2 .
The output elements are included in l1 and l2 in the same
relative order as the corresponding input elements in l .
|
partition_map [List] |
partition_map f l returns a pair of lists (l1, l2) such that,
for each element x of the input list l : if f x is Left y1 , then y1 is in l1 , and, if f x is Right y2 , then y2 is in l2 .
The output elements are included in l1 and l2 in the same
relative order as the corresponding input elements in l .
|
pause [UnixLabels] |
Wait until a non-ignored, non-blocked signal is delivered.
|
pause [Unix] |
Wait until a non-ignored, non-blocked signal is delivered.
|
pause [Runtime_events] |
pause () will pause the collection of events in the runtime.
|
peek [Queue] |
peek q returns the first element in queue q , without removing
it from the queue, or raises Queue.Empty if the queue is empty.
|
peek_opt [Queue] |
peek_opt q returns the first element in queue q , without removing
it from the queue, or returns None if the queue is empty.
|
perform [Effect] |
perform e performs an effect e .
|
pi [Float] |
|
pipe [UnixLabels] |
|
pipe [Unix] |
|
polar [Complex] |
polar norm arg returns the complex having norm norm
and argument arg .
|
poll [Event] |
Non-blocking version of Event.sync : offer all the communication
possibilities specified in the event to the outside world,
and if one can take place immediately, perform it and return
Some r where r is the result value of that communication.
|
pop [Stack] |
pop s removes and returns the topmost element in stack s ,
or raises Stack.Empty if the stack is empty.
|
pop [Queue] |
pop is a synonym for take .
|
pop_last [Dynarray] |
pop_last a removes and returns the last element of a .
|
pop_last_opt [Dynarray] |
pop_last_opt a removes and returns the last element of a ,
or None if the array is empty.
|
pop_opt [Stack] |
pop_opt s removes and returns the topmost element in stack s ,
or returns None if the stack is empty.
|
pos [Out_channel] |
Return the current writing position for the given channel.
|
pos [In_channel] |
Return the current reading position for the given channel.
|
pos_in [Stdlib.LargeFile] |
|
pos_in [Stdlib] |
Return the current reading position for the given channel.
|
pos_out [Stdlib.LargeFile] |
|
pos_out [Stdlib] |
Return the current writing position for the given channel.
|
pow [Float] |
|
pow [Complex] |
|
pp_close_box [Format] |
|
pp_close_stag [Format] |
|
pp_close_tbox [Format] |
|
pp_force_newline [Format] |
|
pp_get_ellipsis_text [Format] |
|
pp_get_formatter_out_functions [Format] |
|
pp_get_formatter_output_functions [Format] |
|
pp_get_formatter_stag_functions [Format] |
|
pp_get_geometry [Format] |
|
pp_get_margin [Format] |
|
pp_get_mark_tags [Format] |
|
pp_get_max_boxes [Format] |
|
pp_get_max_indent [Format] |
|
pp_get_print_tags [Format] |
|
pp_infinity [Format] |
pp_infinity is the maximal size of the margin.
|
pp_open_box [Format] |
|
pp_open_hbox [Format] |
|
pp_open_hovbox [Format] |
|
pp_open_hvbox [Format] |
|
pp_open_stag [Format] |
|
pp_open_tbox [Format] |
|
pp_open_vbox [Format] |
|
pp_over_max_boxes [Format] |
|
pp_print_array [Format] |
pp_print_array ?pp_sep pp_v ppf a prints items of array a ,
using pp_v to print each item, and calling pp_sep
between items (pp_sep defaults to Format.pp_print_cut ).
|
pp_print_as [Format] |
|
pp_print_bool [Format] |
|
pp_print_break [Format] |
|
pp_print_bytes [Format] |
|
pp_print_char [Format] |
|
pp_print_custom_break [Format] |
pp_print_custom_break ppf ~fits:(s1, n, s2) ~breaks:(s3, m, s4) emits a
custom break hint: the pretty-printer may split the line at this point.
|
pp_print_cut [Format] |
|
pp_print_either [Format] |
pp_print_either ~left ~right ppf e prints e on ppf using
left if e is Either.Left _ and right if e is Either.Right _ .
|
pp_print_float [Format] |
|
pp_print_flush [Format] |
|
pp_print_if_newline [Format] |
|
pp_print_int [Format] |
|
pp_print_iter [Format] |
pp_print_iter ~pp_sep iter pp_v ppf v formats on ppf the iterations of
iter over a collection v of values using pp_v .
|
pp_print_list [Format] |
pp_print_list ?pp_sep pp_v ppf l prints items of list l ,
using pp_v to print each item, and calling pp_sep
between items (pp_sep defaults to Format.pp_print_cut ).
|
pp_print_newline [Format] |
|
pp_print_nothing [Format] |
|
pp_print_option [Format] |
pp_print_option ?none pp_v ppf o prints o on ppf
using pp_v if o is Some v and none if it is None .
|
pp_print_result [Format] |
pp_print_result ~ok ~error ppf r prints r on ppf using
ok if r is Ok _ and error if r is Error _ .
|
pp_print_seq [Format] |
pp_print_seq ?pp_sep pp_v ppf s prints items of sequence s ,
using pp_v to print each item, and calling pp_sep
between items (pp_sep defaults to Format.pp_print_cut .
|
pp_print_space [Format] |
|
pp_print_string [Format] |
|
pp_print_tab [Format] |
|
pp_print_tbreak [Format] |
|
pp_print_text [Format] |
|
pp_safe_set_geometry [Format] |
|
pp_set_ellipsis_text [Format] |
|
pp_set_formatter_out_channel [Format] |
Redirecting the standard formatter output
|
pp_set_formatter_out_functions [Format] |
|
pp_set_formatter_output_functions [Format] |
|
pp_set_formatter_stag_functions [Format] |
|
pp_set_geometry [Format] |
|
pp_set_margin [Format] |
|
pp_set_mark_tags [Format] |
|
pp_set_max_boxes [Format] |
|
pp_set_max_indent [Format] |
|
pp_set_print_tags [Format] |
|
pp_set_tab [Format] |
|
pp_set_tags [Format] |
|
pp_update_geometry [Format] |
pp_update_geometry ppf (fun geo -> { geo with ... }) lets you
update a formatter's geometry in a way that is robust to extension
of the geometry record with new fields.
|
pred [Uchar] |
pred u is the scalar value before u in the set of Unicode scalar
values.
|
pred [Stdlib] |
|
pred [Nativeint] |
|
pred [Int64] |
|
pred [Int32] |
|
pred [Int] |
|
pred [Float] |
pred x returns the floating-point number right before x i.e.,
the greatest floating-point number smaller than x .
|
prerr_bytes [Stdlib] |
Print a byte sequence on standard error.
|
prerr_char [Stdlib] |
Print a character on standard error.
|
prerr_endline [Stdlib] |
Print a string, followed by a newline character on standard
error and flush standard error.
|
prerr_float [Stdlib] |
Print a floating-point number, in decimal, on standard error.
|
prerr_int [Stdlib] |
Print an integer, in decimal, on standard error.
|
prerr_newline [Stdlib] |
Print a newline character on standard error, and flush
standard error.
|
prerr_string [Stdlib] |
Print a string on standard error.
|
print [Printexc] |
Printexc.print fn x applies fn to x and returns the result.
|
print_as [Format] |
pp_print_as ppf len s prints s in the current pretty-printing box.
|
print_backtrace [Printexc] |
Printexc.print_backtrace oc prints an exception backtrace
on the output channel oc .
|
print_bool [Format] |
Print a boolean in the current pretty-printing box.
|
print_break [Format] |
pp_print_break ppf nspaces offset emits a 'full' break hint:
the pretty-printer may split the line at this point,
otherwise it prints nspaces spaces.
|
print_bytes [Stdlib] |
Print a byte sequence on standard output.
|
print_bytes [Format] |
pp_print_bytes ppf b prints b in the current pretty-printing box.
|
print_char [Stdlib] |
Print a character on standard output.
|
print_char [Format] |
Print a character in the current pretty-printing box.
|
print_cut [Format] |
pp_print_cut ppf () emits a 'cut' break hint:
the pretty-printer may split the line at this point,
otherwise it prints nothing.
|
print_endline [Stdlib] |
Print a string, followed by a newline character, on
standard output and flush standard output.
|
print_float [Stdlib] |
Print a floating-point number, in decimal, on standard output.
|
print_float [Format] |
Print a floating point number in the current pretty-printing box.
|
print_flush [Format] |
End of pretty-printing: resets the pretty-printer to initial state.
|
print_if_newline [Format] |
Execute the next formatting command if the preceding line
has just been split.
|
print_int [Stdlib] |
Print an integer, in decimal, on standard output.
|
print_int [Format] |
Print an integer in the current pretty-printing box.
|
print_newline [Stdlib] |
Print a newline character on standard output, and flush
standard output.
|
print_newline [Format] |
End of pretty-printing: resets the pretty-printer to initial state.
|
print_raw_backtrace [Printexc] |
Print a raw backtrace in the same format
Printexc.print_backtrace uses.
|
print_space [Format] |
pp_print_space ppf () emits a 'space' break hint:
the pretty-printer may split the line at this point,
otherwise it prints one space.
|
print_stat [Gc] |
Print the current values of the memory management counters (in
human-readable form) of the total program into the channel argument.
|
print_string [Stdlib] |
Print a string on standard output.
|
print_string [Format] |
pp_print_string ppf s prints s in the current pretty-printing box.
|
print_tab [Format] |
print_tab () emits a 'next' tabulation break hint: if not already set on
a tabulation marker, the insertion point moves to the first tabulation
marker on the right, or the pretty-printer splits the line and insertion
point moves to the leftmost tabulation marker.
|
print_tbreak [Format] |
print_tbreak nspaces offset emits a 'full' tabulation break hint.
|
printf [Printf] |
|
printf [Format] |
Same as fprintf above, but output on get_std_formatter () .
|
process_full_pid [UnixLabels] |
|
process_full_pid [Unix] |
|
process_in_pid [UnixLabels] |
|
process_in_pid [Unix] |
|
process_out_pid [UnixLabels] |
|
process_out_pid [Unix] |
|
process_pid [UnixLabels] |
|
process_pid [Unix] |
|
product [Seq] |
product xs ys is the Cartesian product of the sequences xs and ys .
|
prohibit [Dynlink] |
prohibit units prohibits dynamically-linked units from referencing
the units named in list units by removing such units from the allowed
units list.
|
protect [Mutex] |
protect mutex f runs f() in a critical section where mutex
is locked (using Mutex.lock ); it then takes care of releasing mutex ,
whether f() returned a value or raised an exception.
|
protect [Fun] |
protect ~finally work invokes work () and then finally ()
before work () returns with its value or an exception.
|
provably_equal [Type.Id] |
provably_equal i0 i1 is Some Equal if identifier i0 is equal
to i1 and None otherwise.
|
public_dynamically_loaded_units [Dynlink] |
Return the list of compilation units that have been dynamically loaded via
loadfile (and not via loadfile_private ).
|
public_method_label [CamlinternalOO] |
|
push [Stack] |
push x s adds the element x at the top of stack s .
|
push [Queue] |
push is a synonym for add .
|
putenv [UnixLabels] |
putenv name value sets the value associated to a
variable in the process environment.
|
putenv [Unix] |
putenv name value sets the value associated to a
variable in the process environment.
|
Q |
query [Ephemeron.Kn] |
|
query [Ephemeron.K2] |
|
query [Ephemeron.K1] |
Ephemeron.K1.query eph key returns Some x (where x is the
ephemeron's data) if key is physically equal to eph 's key, and
None if eph is empty or key is not equal to eph 's key.
|
quick_stat [Gc] |
Same as stat except that live_words , live_blocks , free_words ,
free_blocks , largest_free , and fragments are set to 0.
|
quiet_nan [Float] |
|
quote [Str] |
Str.quote s returns a regexp string that matches exactly
s and nothing else.
|
quote [Filename] |
Return a quoted version of a file name, suitable for use as
one argument in a command line, escaping all meta-characters.
|
quote_command [Filename] |
|
R |
raise [Stdlib] |
Raise the given exception value
|
raise_notrace [Stdlib] |
A faster version raise which does not record the backtrace.
|
raise_with_backtrace [Printexc] |
Reraise the exception using the given raw_backtrace for the
origin of the exception
|
randomize [MoreLabels.Hashtbl] |
After a call to Hashtbl.randomize() , hash tables are created in
randomized mode by default: MoreLabels.Hashtbl.create returns randomized
hash tables, unless the ~random:false optional parameter is given.
|
randomize [Hashtbl] |
After a call to Hashtbl.randomize() , hash tables are created in
randomized mode by default: Hashtbl.create returns randomized
hash tables, unless the ~random:false optional parameter is given.
|
raw_backtrace_entries [Printexc] |
|
raw_backtrace_length [Printexc] |
raw_backtrace_length bckt returns the number of slots in the
backtrace bckt .
|
raw_backtrace_to_string [Printexc] |
Return a string from a raw backtrace, in the same format
Printexc.get_backtrace uses.
|
raw_field [Obj] |
|
rcontains_from [String] |
rcontains_from s stop c is true if and only if c appears in s
before position stop+1 .
|
rcontains_from [StringLabels] |
rcontains_from s stop c is true if and only if c appears in s
before position stop+1 .
|
rcontains_from [BytesLabels] |
rcontains_from s stop c tests if byte c appears in s before
position stop+1 .
|
rcontains_from [Bytes] |
rcontains_from s stop c tests if byte c appears in s before
position stop+1 .
|
reachable_words [Obj] |
Computes the total size (in words, including the headers) of all
heap blocks accessible from the argument.
|
read [UnixLabels] |
read fd ~buf ~pos ~len reads len bytes from descriptor fd ,
storing them in byte sequence buf , starting at position pos in
buf .
|
read [Unix] |
read fd buf pos len reads len bytes from descriptor fd ,
storing them in byte sequence buf , starting at position pos in
buf .
|
read_arg [Arg] |
Arg.read_arg file reads newline-terminated command line arguments from
file file .
|
read_arg0 [Arg] |
Identical to Arg.read_arg but assumes null character terminated command
line arguments.
|
read_bigarray [UnixLabels] |
|
read_bigarray [Unix] |
Same as Unix.read , but read the data into a bigarray.
|
read_float [Stdlib] |
Same as read_float_opt , but raise Failure "float_of_string"
instead of returning None .
|
read_float_opt [Stdlib] |
Flush standard output, then read one line from standard input
and convert it to a floating-point number.
|
read_int [Stdlib] |
Same as read_int_opt , but raise Failure "int_of_string"
instead of returning None .
|
read_int_opt [Stdlib] |
Flush standard output, then read one line from standard input
and convert it to an integer.
|
read_line [Stdlib] |
Flush standard output, then read characters from standard input
until a newline character is encountered.
|
read_poll [Runtime_events] |
read_poll cursor callbacks max_option calls the corresponding functions
on callbacks for up to max_option events read off cursor 's
runtime_events and returns the number of events read.
|
readdir [UnixLabels] |
Return the next entry in a directory.
|
readdir [Unix] |
Return the next entry in a directory.
|
readdir [Sys] |
Return the names of all files present in the given directory.
|
readlink [UnixLabels] |
Read the contents of a symbolic link.
|
readlink [Unix] |
Read the contents of a symbolic link.
|
really_input [Stdlib] |
really_input ic buf pos len reads len characters from channel ic ,
storing them in byte sequence buf , starting at character number pos .
|
really_input [In_channel] |
really_input ic buf pos len reads len characters from channel ic ,
storing them in byte sequence buf , starting at character number pos .
|
really_input_bigarray [In_channel] |
|
really_input_string [Stdlib] |
really_input_string ic len reads len characters from channel ic
and returns them in a new string.
|
really_input_string [In_channel] |
really_input_string ic len reads len characters from channel ic and
returns them in a new string.
|
realpath [UnixLabels] |
realpath p is an absolute pathname for p obtained by resolving
all extra / characters, relative path segments and symbolic links.
|
realpath [Unix] |
realpath p is an absolute pathname for p obtained by resolving
all extra / characters, relative path segments and symbolic links.
|
rebuild [MoreLabels.Hashtbl] |
Return a copy of the given hashtable.
|
rebuild [Hashtbl] |
Return a copy of the given hashtable.
|
recast [CamlinternalFormat] |
|
receive [Event] |
receive ch returns the event consisting in receiving a value
from the channel ch .
|
recommended_domain_count [Domain] |
The recommended maximum number of domains which should be running
simultaneously (including domains already running).
|
record_backtrace [Printexc] |
Printexc.record_backtrace b turns recording of exception backtraces
on (if b = true ) or off (if b = false ).
|
recv [UnixLabels] |
Receive data from a connected socket.
|
recv [Unix] |
Receive data from a connected socket.
|
recvfrom [UnixLabels] |
Receive data from an unconnected socket.
|
recvfrom [Unix] |
Receive data from an unconnected socket.
|
ref [Stdlib] |
Return a fresh reference containing the given value.
|
regexp [Str] |
Compile a regular expression.
|
regexp_case_fold [Str] |
Same as regexp , but the compiled expression will match text
in a case-insensitive way: uppercase and lowercase letters will
be considered equivalent.
|
regexp_string [Str] |
Str.regexp_string s returns a regular expression
that matches exactly s and nothing else.
|
regexp_string_case_fold [Str] |
Str.regexp_string_case_fold is similar to Str.regexp_string ,
but the regexp matches in a case-insensitive way.
|
register [Runtime_events.User] |
register name tag ty registers a new event with an unique name ,
carrying a tag and values of type ty .
|
register [Runtime_events.Type] |
Registers a custom type by providing an encoder and a decoder.
|
register [Callback] |
Callback.register n v registers the value v under
the name n .
|
register_exception [Callback] |
Callback.register_exception n exn registers the
exception contained in the exception value exn
under the name n .
|
register_printer [Printexc] |
Printexc.register_printer fn registers fn as an exception
printer.
|
release [Semaphore.Binary] |
release s sets the value of semaphore s to 1, putting it in the
"available" state.
|
release [Semaphore.Counting] |
release s increments the value of semaphore s .
|
rem [Nativeint] |
|
rem [Int64] |
|
rem [Int32] |
|
rem [Int] |
rem x y is the remainder x mod y .
|
rem [Float] |
rem a b returns the remainder of a with respect to b .
|
remove [Weak.S] |
remove t x removes from t one instance of x .
|
remove [Sys] |
Remove the given file name from the file system.
|
remove [Set.S] |
remove x s returns a set containing all elements of s ,
except x .
|
remove [MoreLabels.Set.S] |
remove x s returns a set containing all elements of s ,
except x .
|
remove [MoreLabels.Map.S] |
remove x m returns a map containing the same bindings as
m , except for x which is unbound in the returned map.
|
remove [MoreLabels.Hashtbl.SeededS] |
|
remove [MoreLabels.Hashtbl.S] |
|
remove [MoreLabels.Hashtbl] |
Hashtbl.remove tbl x removes the current binding of x in tbl ,
restoring the previous binding if it exists.
|
remove [Map.S] |
remove x m returns a map containing the same bindings as
m , except for x which is unbound in the returned map.
|
remove [Hashtbl.SeededS] |
|
remove [Hashtbl.S] |
|
remove [Hashtbl] |
Hashtbl.remove tbl x removes the current binding of x in tbl ,
restoring the previous binding if it exists.
|
remove [Ephemeron.Kn.Bucket] |
remove b k removes from b the most-recently added
ephemeron with keys k , or does nothing if there is no such
ephemeron.
|
remove [Ephemeron.K2.Bucket] |
remove b k1 k2 removes from b the most-recently added
ephemeron with keys k1 and k2 , or does nothing if there
is no such ephemeron.
|
remove [Ephemeron.K1.Bucket] |
remove b k removes from b the most-recently added
ephemeron with key k , or does nothing if there is no such
ephemeron.
|
remove [Ephemeron.SeededS] |
|
remove [Ephemeron.S] |
|
remove_assoc [ListLabels] |
remove_assoc a l returns the list of
pairs l without the first pair with key a , if any.
|
remove_assoc [List] |
remove_assoc a l returns the list of
pairs l without the first pair with key a , if any.
|
remove_assq [ListLabels] |
|
remove_assq [List] |
Same as List.remove_assoc , but uses physical equality instead
of structural equality to compare keys.
|
remove_extension [Filename] |
|
remove_last [Dynarray] |
remove_last a removes the last element of a , if any.
|
rename [UnixLabels] |
rename ~src ~dst changes the name of a file from src to dst ,
moving it between directories if needed.
|
rename [Unix] |
rename src dst changes the name of a file from src to dst ,
moving it between directories if needed.
|
rename [Sys] |
Rename a file or directory.
|
rep [Uchar] |
|
repeat [Seq] |
repeat x is the infinite sequence
where the element x is repeated indefinitely.
|
replace [MoreLabels.Hashtbl.SeededS] |
|
replace [MoreLabels.Hashtbl.S] |
|
replace [MoreLabels.Hashtbl] |
Hashtbl.replace tbl ~key ~data replaces the current binding of key
in tbl by a binding of key to data .
|
replace [Hashtbl.SeededS] |
|
replace [Hashtbl.S] |
|
replace [Hashtbl] |
Hashtbl.replace tbl key data replaces the current binding of key
in tbl by a binding of key to data .
|
replace [Ephemeron.SeededS] |
|
replace [Ephemeron.S] |
|
replace_first [Str] |
Same as Str.global_replace , except that only the first substring
matching the regular expression is replaced.
|
replace_matched [Str] |
replace_matched repl s returns the replacement text repl
in which \1 , \2 , etc.
|
replace_seq [MoreLabels.Hashtbl.SeededS] |
|
replace_seq [MoreLabels.Hashtbl.S] |
|
replace_seq [MoreLabels.Hashtbl] |
|
replace_seq [Hashtbl.SeededS] |
|
replace_seq [Hashtbl.S] |
|
replace_seq [Hashtbl] |
|
replace_seq [Ephemeron.SeededS] |
|
replace_seq [Ephemeron.S] |
|
repr [Sys.Immediate64.Make] |
|
repr [Obj] |
|
reset [MoreLabels.Hashtbl.SeededS] |
|
reset [MoreLabels.Hashtbl.S] |
|
reset [MoreLabels.Hashtbl] |
Empty a hash table and shrink the size of the bucket table
to its initial size.
|
reset [Hashtbl.SeededS] |
|
reset [Hashtbl.S] |
|
reset [Hashtbl] |
Empty a hash table and shrink the size of the bucket table
to its initial size.
|
reset [Ephemeron.SeededS] |
|
reset [Ephemeron.S] |
|
reset [Dynarray] |
reset a clears a and replaces its backing array by an empty array.
|
reset [Buffer] |
Empty the buffer and deallocate the internal byte sequence holding the
buffer contents, replacing it with the initial internal byte sequence
of length n that was allocated by Buffer.create n .
|
reshape [Bigarray] |
reshape b [|d1;...;dN|] converts the Bigarray b to a
N -dimensional array of dimensions d1 ...
|
reshape_0 [Bigarray] |
Specialized version of Bigarray.reshape for reshaping to
zero-dimensional arrays.
|
reshape_1 [Bigarray] |
Specialized version of Bigarray.reshape for reshaping to
one-dimensional arrays.
|
reshape_2 [Bigarray] |
Specialized version of Bigarray.reshape for reshaping to
two-dimensional arrays.
|
reshape_3 [Bigarray] |
Specialized version of Bigarray.reshape for reshaping to
three-dimensional arrays.
|
resume [Runtime_events] |
resume () will resume the collection of events in the runtime.
|
return [Seq] |
return x is the sequence whose sole element is x .
|
rev [ListLabels] |
|
rev [List] |
|
rev_append [ListLabels] |
rev_append l1 l2 reverses l1 and concatenates it with l2 .
|
rev_append [List] |
rev_append l1 l2 reverses l1 and concatenates it with l2 .
|
rev_char_set [CamlinternalFormat] |
|
rev_map [ListLabels] |
|
rev_map [List] |
rev_map f l gives the same result as
List.rev ( List.map f l) , but is more efficient.
|
rev_map2 [ListLabels] |
|
rev_map2 [List] |
rev_map2 f l1 l2 gives the same result as
List.rev ( List.map2 f l1 l2) , but is more efficient.
|
rewinddir [UnixLabels] |
Reposition the descriptor to the beginning of the directory
|
rewinddir [Unix] |
Reposition the descriptor to the beginning of the directory
|
rhs_end [Parsing] |
|
rhs_end_pos [Parsing] |
Same as rhs_end , but return a position instead of an offset.
|
rhs_start [Parsing] |
Same as Parsing.symbol_start and Parsing.symbol_end , but
return the offset of the string matching the n th item on the
right-hand side of the rule, where n is the integer parameter
to rhs_start and rhs_end .
|
rhs_start_pos [Parsing] |
Same as rhs_start , but return a position instead of an offset.
|
right [Either] |
|
rindex [String] |
|
rindex [StringLabels] |
|
rindex [BytesLabels] |
rindex s c returns the index of the last occurrence of byte c
in s .
|
rindex [Bytes] |
rindex s c returns the index of the last occurrence of byte c
in s .
|
rindex_from [String] |
rindex_from s i c is the index of the last occurrence of c in
s before position i+1 .
|
rindex_from [StringLabels] |
rindex_from s i c is the index of the last occurrence of c in
s before position i+1 .
|
rindex_from [BytesLabels] |
rindex_from s i c returns the index of the last occurrence of
byte c in s before position i+1 .
|
rindex_from [Bytes] |
rindex_from s i c returns the index of the last occurrence of
byte c in s before position i+1 .
|
rindex_from_opt [String] |
rindex_from_opt s i c is the index of the last occurrence of c
in s before position i+1 (if any).
|
rindex_from_opt [StringLabels] |
rindex_from_opt s i c is the index of the last occurrence of c
in s before position i+1 (if any).
|
rindex_from_opt [BytesLabels] |
rindex_from_opt s i c returns the index of the last occurrence
of byte c in s before position i+1 or None if c does not
occur in s before position i+1 .
|
rindex_from_opt [Bytes] |
rindex_from_opt s i c returns the index of the last occurrence
of byte c in s before position i+1 or None if c does not
occur in s before position i+1 .
|
rindex_opt [String] |
|
rindex_opt [StringLabels] |
|
rindex_opt [BytesLabels] |
rindex_opt s c returns the index of the last occurrence of byte c
in s or None if c does not occur in s .
|
rindex_opt [Bytes] |
rindex_opt s c returns the index of the last occurrence of byte c
in s or None if c does not occur in s .
|
rmdir [UnixLabels] |
Remove an empty directory.
|
rmdir [Unix] |
Remove an empty directory.
|
rmdir [Sys] |
Remove an empty directory.
|
round [Float] |
round x rounds x to the nearest integer with ties (fractional
values of 0.5) rounded away from zero, regardless of the current
rounding direction.
|
run_initializers [CamlinternalOO] |
|
run_initializers_opt [CamlinternalOO] |
|
runtime_counter_name [Runtime_events] |
Return a string representation of a given runtime counter type.
|
runtime_parameters [Sys] |
Return the value of the runtime parameters, in the same format
as the contents of the OCAMLRUNPARAM environment variable.
|
runtime_phase_name [Runtime_events] |
Return a string representation of a given runtime phase event type.
|
runtime_variant [Sys] |
Return the name of the runtime variant the program is running on.
|
runtime_warnings_enabled [Sys] |
Return whether runtime warnings are currently enabled.
|
S |
safe_set_geometry [Format] |
pp_set_geometry ppf ~max_indent ~margin sets both the margin
and maximum indentation limit for ppf .
|
scan [Seq] |
If xs is a sequence [x0; x1; x2; ...] , then
scan f a0 xs is a sequence of accumulators
[a0; a1; a2; ...]
where a1 is f a0 x0 , a2 is f a1 x1 , and so on.
|
scanf [Scanf] |
|
scanf_opt [Scanf] |
Same as Scanf.scanf , but returns None in case of scanning failure.
|
search_backward [Str] |
search_backward r s last searches the string s for a
substring matching the regular expression r .
|
search_forward [Str] |
search_forward r s start searches the string s for a substring
matching the regular expression r .
|
seeded_hash [String] |
|
seeded_hash [StringLabels] |
|
seeded_hash [Nativeint] |
|
seeded_hash [MoreLabels.Hashtbl.SeededHashedType] |
A seeded hashing function on keys.
|
seeded_hash [MoreLabels.Hashtbl] |
|
seeded_hash [Int64] |
|
seeded_hash [Int32] |
|
seeded_hash [Int] |
|
seeded_hash [Hashtbl.SeededHashedType] |
A seeded hashing function on keys.
|
seeded_hash [Hashtbl] |
A variant of Hashtbl.hash that is further parameterized by
an integer seed.
|
seeded_hash [Float] |
|
seeded_hash [Char] |
|
seeded_hash [Bool] |
|
seeded_hash_param [MoreLabels.Hashtbl] |
|
seeded_hash_param [Hashtbl] |
|
seek [Out_channel] |
seek chan pos sets the current writing position to pos for channel
chan .
|
seek [In_channel] |
seek chan pos sets the current reading position to pos for channel
chan .
|
seek_in [Stdlib.LargeFile] |
|
seek_in [Stdlib] |
seek_in chan pos sets the current reading position to pos
for channel chan .
|
seek_out [Stdlib.LargeFile] |
|
seek_out [Stdlib] |
seek_out chan pos sets the current writing position to pos
for channel chan .
|
select [UnixLabels] |
Wait until some input/output operations become possible on
some channels.
|
select [Unix] |
Wait until some input/output operations become possible on
some channels.
|
select [Thread] |
|
select [Event] |
'Synchronize' on an alternative of events.
|
self [Thread] |
Return the handle for the thread currently executing.
|
self [Domain] |
self () is the identifier of the currently running domain
|
self_init [Random] |
Initialize the domain-local generator with a random seed chosen
in a system-dependent way.
|
send [CamlinternalOO] |
|
send [UnixLabels] |
Send data over a connected socket.
|
send [Unix] |
Send data over a connected socket.
|
send [Event] |
send ch v returns the event consisting in sending the value v
over the channel ch .
|
send_substring [UnixLabels] |
Same as send , but take the data from a string instead of a byte
sequence.
|
send_substring [Unix] |
Same as send , but take the data from a string instead of a byte
sequence.
|
sendcache [CamlinternalOO] |
|
sendself [CamlinternalOO] |
|
sendto [UnixLabels] |
Send data over an unconnected socket.
|
sendto [Unix] |
Send data over an unconnected socket.
|
sendto_substring [UnixLabels] |
Same as sendto , but take the data from a string instead of a
byte sequence.
|
sendto_substring [Unix] |
Same as sendto , but take the data from a string instead of a
byte sequence.
|
set [Weak] |
Weak.set ar n (Some el) sets the n th cell of ar to be a
(full) pointer to el ; Weak.set ar n None sets the n th
cell of ar to empty.
|
set [Gc] |
set r changes the GC parameters according to the control record r .
|
set [Float.ArrayLabels] |
set a n x modifies floatarray a in place, replacing element
number n with x .
|
set [Float.Array] |
set a n x modifies floatarray a in place, replacing element
number n with x .
|
set [Dynarray] |
set a i x sets the i -th element of a to be x .
|
set [Domain.DLS] |
set k v updates the calling domain's domain-local state to associate
the key k with value v .
|
set [BytesLabels] |
set s n c modifies s in place, replacing the byte at index n
with c .
|
set [Bytes] |
set s n c modifies s in place, replacing the byte at index n
with c .
|
set [Bigarray.Array3] |
Array3.set a x y v , or alternatively a.{x,y,z} <- v ,
stores the value v at coordinates (x , y , z ) in a .
|
set [Bigarray.Array2] |
Array2.set a x y v , or alternatively a.{x,y} <- v ,
stores the value v at coordinates (x , y ) in a .
|
set [Bigarray.Array1] |
Array1.set a x v , also written a.{x} <- v ,
stores the value v at index x in a .
|
set [Bigarray.Array0] |
Array0.set a x v stores the value v in a .
|
set [Bigarray.Genarray] |
Assign an element of a generic Bigarray.
|
set [Atomic] |
Set a new value for the atomic reference.
|
set [ArrayLabels] |
set a n x modifies array a in place, replacing
element number n with x .
|
set [Array] |
set a n x modifies array a in place, replacing
element number n with x .
|
set_allowed_units [Dynlink] |
Set the list of compilation units that may be referenced from units that
are dynamically loaded in the future to be exactly the given value.
|
set_binary_mode [Out_channel] |
set_binary_mode oc true sets the channel oc to binary mode: no
translations take place during output.
|
set_binary_mode [In_channel] |
set_binary_mode ic true sets the channel ic to binary mode: no
translations take place during input.
|
set_binary_mode_in [Stdlib] |
set_binary_mode_in ic true sets the channel ic to binary
mode: no translations take place during input.
|
set_binary_mode_out [Stdlib] |
set_binary_mode_out oc true sets the channel oc to binary
mode: no translations take place during output.
|
set_buffered [Out_channel] |
set_buffered oc true sets the channel oc to buffered mode.
|
set_capacity [Dynarray] |
set_capacity a n reallocates a backing array if necessary,
so that the resulting capacity is exactly n .
|
set_close_on_exec [UnixLabels] |
Set the ``close-on-exec'' flag on the given descriptor.
|
set_close_on_exec [Unix] |
Set the ``close-on-exec'' flag on the given descriptor.
|
set_data [Obj.Ephemeron] |
|
set_double_field [Obj] |
|
set_ellipsis_text [Format] |
Set the text of the ellipsis printed when too many pretty-printing boxes
are open (a single dot, . , by default).
|
set_field [Obj] |
|
set_filename [Lexing] |
Set filename in the initial tracked position to file in
lexbuf .
|
set_formatter_out_channel [Format] |
Redirect the standard pretty-printer output to the given channel.
|
set_formatter_out_functions [Format] |
pp_set_formatter_out_functions ppf out_funs
Set all the pretty-printer output functions of ppf to those of
argument out_funs ,
|
set_formatter_output_functions [Format] |
pp_set_formatter_output_functions ppf out flush redirects the
standard pretty-printer output functions to the functions out and
flush .
|
set_formatter_stag_functions [Format] |
pp_set_formatter_stag_functions ppf tag_funs changes the meaning of
opening and closing semantic tag operations to use the functions in
tag_funs when printing on ppf .
|
set_geometry [Format] |
|
set_int16_be [BytesLabels] |
set_int16_be b i v sets b 's big-endian signed 16-bit integer
starting at byte index i to v .
|
set_int16_be [Bytes] |
set_int16_be b i v sets b 's big-endian signed 16-bit integer
starting at byte index i to v .
|
set_int16_le [BytesLabels] |
set_int16_le b i v sets b 's little-endian signed 16-bit integer
starting at byte index i to v .
|
set_int16_le [Bytes] |
set_int16_le b i v sets b 's little-endian signed 16-bit integer
starting at byte index i to v .
|
set_int16_ne [BytesLabels] |
set_int16_ne b i v sets b 's native-endian signed 16-bit integer
starting at byte index i to v .
|
set_int16_ne [Bytes] |
set_int16_ne b i v sets b 's native-endian signed 16-bit integer
starting at byte index i to v .
|
set_int32_be [BytesLabels] |
set_int32_be b i v sets b 's big-endian 32-bit integer
starting at byte index i to v .
|
set_int32_be [Bytes] |
set_int32_be b i v sets b 's big-endian 32-bit integer
starting at byte index i to v .
|
set_int32_le [BytesLabels] |
set_int32_le b i v sets b 's little-endian 32-bit integer
starting at byte index i to v .
|
set_int32_le [Bytes] |
set_int32_le b i v sets b 's little-endian 32-bit integer
starting at byte index i to v .
|
set_int32_ne [BytesLabels] |
set_int32_ne b i v sets b 's native-endian 32-bit integer
starting at byte index i to v .
|
set_int32_ne [Bytes] |
set_int32_ne b i v sets b 's native-endian 32-bit integer
starting at byte index i to v .
|
set_int64_be [BytesLabels] |
set_int64_be b i v sets b 's big-endian 64-bit integer
starting at byte index i to v .
|
set_int64_be [Bytes] |
set_int64_be b i v sets b 's big-endian 64-bit integer
starting at byte index i to v .
|
set_int64_le [BytesLabels] |
set_int64_le b i v sets b 's little-endian 64-bit integer
starting at byte index i to v .
|
set_int64_le [Bytes] |
set_int64_le b i v sets b 's little-endian 64-bit integer
starting at byte index i to v .
|
set_int64_ne [BytesLabels] |
set_int64_ne b i v sets b 's native-endian 64-bit integer
starting at byte index i to v .
|
set_int64_ne [Bytes] |
set_int64_ne b i v sets b 's native-endian 64-bit integer
starting at byte index i to v .
|
set_int8 [BytesLabels] |
set_int8 b i v sets b 's signed 8-bit integer starting at byte index
i to v .
|
set_int8 [Bytes] |
set_int8 b i v sets b 's signed 8-bit integer starting at byte index
i to v .
|
set_key [Obj.Ephemeron] |
|
set_margin [Format] |
pp_set_margin ppf d sets the right margin to d (in characters):
the pretty-printer splits lines that overflow the right margin according to
the break hints given.
|
set_mark_tags [Format] |
pp_set_mark_tags ppf b turns on or off the tag-marking operations.
|
set_max_boxes [Format] |
pp_set_max_boxes ppf max sets the maximum number of pretty-printing
boxes simultaneously open.
|
set_max_indent [Format] |
pp_set_max_indent ppf d sets the maximum indentation limit of lines
to d (in characters):
once this limit is reached, new pretty-printing boxes are rejected to the
left, unless the enclosing box fully fits on the current line.
|
set_method [CamlinternalOO] |
|
set_methods [CamlinternalOO] |
|
set_nonblock [UnixLabels] |
Set the ``non-blocking'' flag on the given descriptor.
|
set_nonblock [Unix] |
Set the ``non-blocking'' flag on the given descriptor.
|
set_position [Lexing] |
Set the initial tracked input position for lexbuf to a custom value.
|
set_print_tags [Format] |
pp_set_print_tags ppf b turns on or off the tag-printing operations.
|
set_raw_field [Obj] |
|
set_signal [Sys] |
|
set_state [Random] |
set_state s updates the current state of the domain-local
generator (which is used by the basic functions) by copying
the state s into it.
|
set_tab [Format] |
Sets a tabulation marker at current insertion point.
|
set_tags [Format] |
pp_set_tags ppf b turns on or off the treatment of semantic tags
(default is off).
|
set_temp_dir_name [Filename] |
|
set_trace [Parsing] |
Control debugging support for ocamlyacc -generated parsers.
|
set_uint16_be [BytesLabels] |
set_uint16_be b i v sets b 's big-endian unsigned 16-bit integer
starting at byte index i to v .
|
set_uint16_be [Bytes] |
set_uint16_be b i v sets b 's big-endian unsigned 16-bit integer
starting at byte index i to v .
|
set_uint16_le [BytesLabels] |
set_uint16_le b i v sets b 's little-endian unsigned 16-bit integer
starting at byte index i to v .
|
set_uint16_le [Bytes] |
set_uint16_le b i v sets b 's little-endian unsigned 16-bit integer
starting at byte index i to v .
|
set_uint16_ne [BytesLabels] |
set_uint16_ne b i v sets b 's native-endian unsigned 16-bit integer
starting at byte index i to v .
|
set_uint16_ne [Bytes] |
set_uint16_ne b i v sets b 's native-endian unsigned 16-bit integer
starting at byte index i to v .
|
set_uint8 [BytesLabels] |
set_uint8 b i v sets b 's unsigned 8-bit integer starting at byte index
i to v .
|
set_uint8 [Bytes] |
set_uint8 b i v sets b 's unsigned 8-bit integer starting at byte index
i to v .
|
set_uncaught_exception_handler [Thread] |
Thread.set_uncaught_exception_handler fn registers fn as the handler
for uncaught exceptions.
|
set_uncaught_exception_handler [Printexc] |
Printexc.set_uncaught_exception_handler fn registers fn as the handler
for uncaught exceptions.
|
set_utf_16be_uchar [BytesLabels] |
set_utf_16be_uchar b i u UTF-16BE encodes u at index i in b
and returns the number of bytes n that were written starting
at i .
|
set_utf_16be_uchar [Bytes] |
set_utf_16be_uchar b i u UTF-16BE encodes u at index i in b
and returns the number of bytes n that were written starting
at i .
|
set_utf_16le_uchar [BytesLabels] |
set_utf_16le_uchar b i u UTF-16LE encodes u at index i in b
and returns the number of bytes n that were written starting
at i .
|
set_utf_16le_uchar [Bytes] |
set_utf_16le_uchar b i u UTF-16LE encodes u at index i in b
and returns the number of bytes n that were written starting
at i .
|
set_utf_8_uchar [BytesLabels] |
set_utf_8_uchar b i u UTF-8 encodes u at index i in b
and returns the number of bytes n that were written starting
at i .
|
set_utf_8_uchar [Bytes] |
set_utf_8_uchar b i u UTF-8 encodes u at index i in b
and returns the number of bytes n that were written starting
at i .
|
setgid [UnixLabels] |
Set the real group id and effective group id for the process.
|
setgid [Unix] |
Set the real group id and effective group id for the process.
|
setgroups [UnixLabels] |
setgroups groups sets the supplementary group IDs for the
calling process.
|
setgroups [Unix] |
setgroups groups sets the supplementary group IDs for the
calling process.
|
setitimer [UnixLabels] |
setitimer t s sets the interval timer t and returns
its previous status.
|
setitimer [Unix] |
setitimer t s sets the interval timer t and returns
its previous status.
|
setsid [UnixLabels] |
Put the calling process in a new session and detach it from
its controlling terminal.
|
setsid [Unix] |
Put the calling process in a new session and detach it from
its controlling terminal.
|
setsockopt [UnixLabels] |
Set or clear a boolean-valued option in the given socket.
|
setsockopt [Unix] |
Set or clear a boolean-valued option in the given socket.
|
setsockopt_float [UnixLabels] |
|
setsockopt_float [Unix] |
Same as Unix.setsockopt for a socket option whose value is a
floating-point number.
|
setsockopt_int [UnixLabels] |
|
setsockopt_int [Unix] |
|
setsockopt_optint [UnixLabels] |
|
setsockopt_optint [Unix] |
|
setuid [UnixLabels] |
Set the real user id and effective user id for the process.
|
setuid [Unix] |
Set the real user id and effective user id for the process.
|
shift_left [Nativeint] |
Nativeint.shift_left x y shifts x to the left by y bits.
|
shift_left [Int64] |
Int64.shift_left x y shifts x to the left by y bits.
|
shift_left [Int32] |
Int32.shift_left x y shifts x to the left by y bits.
|
shift_left [Int] |
shift_left x n shifts x to the left by n bits.
|
shift_right [Nativeint] |
Nativeint.shift_right x y shifts x to the right by y bits.
|
shift_right [Int64] |
Int64.shift_right x y shifts x to the right by y bits.
|
shift_right [Int32] |
Int32.shift_right x y shifts x to the right by y bits.
|
shift_right [Int] |
shift_right x n shifts x to the right by n bits.
|
shift_right_logical [Nativeint] |
Nativeint.shift_right_logical x y shifts x to the right
by y bits.
|
shift_right_logical [Int64] |
Int64.shift_right_logical x y shifts x to the right by y bits.
|
shift_right_logical [Int32] |
Int32.shift_right_logical x y shifts x to the right by y bits.
|
shift_right_logical [Int] |
shift_right x n shifts x to the right by n bits.
|
shuffle [Float.ArrayLabels] |
shuffle ~rand a randomly permutes a 's elements using rand
for randomness.
|
shuffle [Float.Array] |
shuffle rand a randomly permutes a 's elements using rand
for randomness.
|
shuffle [ArrayLabels] |
shuffle ~rand a randomly permutes a 's element using rand for
randomness.
|
shuffle [Array] |
shuffle rand a randomly permutes a 's element using rand for
randomness.
|
shutdown [UnixLabels] |
Shutdown a socket connection.
|
shutdown [Unix] |
Shutdown a socket connection.
|
shutdown_connection [UnixLabels] |
``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.
|
shutdown_connection [Unix] |
``Shut down'' a connection established with Unix.open_connection ;
that is, transmit an end-of-file condition to the server reading
on the other side of the connection.
|
sigabrt [Sys] |
|
sigalrm [Sys] |
|
sigbus [Sys] |
|
sigchld [Sys] |
|
sigcont [Sys] |
|
sigfpe [Sys] |
|
sighup [Sys] |
Hangup on controlling terminal
|
sigill [Sys] |
Invalid hardware instruction
|
sigint [Sys] |
Interactive interrupt (ctrl-C)
|
sigkill [Sys] |
Termination (cannot be ignored)
|
sigmask [Thread] |
sigmask cmd sigs changes the set of blocked signals for the
calling thread.
|
sign_bit [Float] |
sign_bit x is true if and only if the sign bit of x is set.
|
signal [Sys] |
Set the behavior of the system on receipt of a given signal.
|
signal [Condition] |
signal c wakes up one of the threads waiting on the condition
variable c , if there is one.
|
signaling_nan [Float] |
|
sigpending [UnixLabels] |
Return the set of blocked signals that are currently pending.
|
sigpending [Unix] |
Return the set of blocked signals that are currently pending.
|
sigpipe [Sys] |
|
sigpoll [Sys] |
|
sigprocmask [UnixLabels] |
sigprocmask ~mode sigs changes the set of blocked signals.
|
sigprocmask [Unix] |
sigprocmask mode sigs changes the set of blocked signals.
|
sigprof [Sys] |
|
sigquit [Sys] |
|
sigsegv [Sys] |
|
sigstop [Sys] |
|
sigsuspend [UnixLabels] |
sigsuspend sigs atomically sets the blocked signals to sigs
and waits for a non-ignored, non-blocked signal to be delivered.
|
sigsuspend [Unix] |
sigsuspend sigs atomically sets the blocked signals to sigs
and waits for a non-ignored, non-blocked signal to be delivered.
|
sigsys [Sys] |
|
sigterm [Sys] |
|
sigtrap [Sys] |
|
sigtstp [Sys] |
|
sigttin [Sys] |
Terminal read from background process
|
sigttou [Sys] |
Terminal write from background process
|
sigurg [Sys] |
Urgent condition on socket
|
sigusr1 [Sys] |
Application-defined signal 1
|
sigusr2 [Sys] |
Application-defined signal 2
|
sigvtalrm [Sys] |
|
sigxcpu [Sys] |
|
sigxfsz [Sys] |
|
sin [Stdlib] |
|
sin [Float] |
|
single_write [UnixLabels] |
|
single_write [Unix] |
Same as Unix.write , but attempts to write only once.
|
single_write_bigarray [UnixLabels] |
|
single_write_bigarray [Unix] |
|
single_write_substring [UnixLabels] |
|
single_write_substring [Unix] |
Same as Unix.single_write , but take the data from a string instead of
a byte sequence.
|
singleton [Set.S] |
singleton x returns the one-element set containing only x .
|
singleton [MoreLabels.Set.S] |
singleton x returns the one-element set containing only x .
|
singleton [MoreLabels.Map.S] |
singleton x y returns the one-element map that contains a binding
y for x .
|
singleton [Map.S] |
singleton x y returns the one-element map that contains a binding
y for x .
|
sinh [Stdlib] |
|
sinh [Float] |
|
size [Obj] |
|
size [Nativeint] |
The size in bits of a native integer.
|
size_in_bytes [Bigarray.Array3] |
|
size_in_bytes [Bigarray.Array2] |
|
size_in_bytes [Bigarray.Array1] |
|
size_in_bytes [Bigarray.Array0] |
|
size_in_bytes [Bigarray.Genarray] |
|
sleep [UnixLabels] |
Stop execution for the given number of seconds.
|
sleep [Unix] |
Stop execution for the given number of seconds.
|
sleepf [UnixLabels] |
Stop execution for the given number of seconds.
|
sleepf [Unix] |
Stop execution for the given number of seconds.
|
slice [Bigarray.Array1] |
Extract a scalar (zero-dimensional slice) of the given one-dimensional
Bigarray.
|
slice_left [Bigarray.Array2] |
Extract a row (one-dimensional slice) of the given two-dimensional
Bigarray.
|
slice_left [Bigarray.Genarray] |
Extract a sub-array of lower dimension from the given Bigarray
by fixing one or several of the first (left-most) coordinates.
|
slice_left_1 [Bigarray.Array3] |
Extract a one-dimensional slice of the given three-dimensional
Bigarray by fixing the first two coordinates.
|
slice_left_2 [Bigarray.Array3] |
Extract a two-dimensional slice of the given three-dimensional
Bigarray by fixing the first coordinate.
|
slice_right [Bigarray.Array2] |
Extract a column (one-dimensional slice) of the given
two-dimensional Bigarray.
|
slice_right [Bigarray.Genarray] |
Extract a sub-array of lower dimension from the given Bigarray
by fixing one or several of the last (right-most) coordinates.
|
slice_right_1 [Bigarray.Array3] |
Extract a one-dimensional slice of the given three-dimensional
Bigarray by fixing the last two coordinates.
|
slice_right_2 [Bigarray.Array3] |
Extract a two-dimensional slice of the given
three-dimensional Bigarray by fixing the last coordinate.
|
snd [Stdlib] |
Return the second component of a pair.
|
socket [UnixLabels] |
Create a new socket in the given domain, and with the
given kind.
|
socket [Unix] |
Create a new socket in the given domain, and with the
given kind.
|
socketpair [UnixLabels] |
Create a pair of unnamed sockets, connected together.
|
socketpair [Unix] |
Create a pair of unnamed sockets, connected together.
|
some [Option] |
|
sort [ListLabels] |
Sort a list in increasing order according to a comparison
function.
|
sort [List] |
Sort a list in increasing order according to a comparison
function.
|
sort [Float.ArrayLabels] |
Sort a floatarray in increasing order according to a comparison
function.
|
sort [Float.Array] |
Sort a floatarray in increasing order according to a comparison
function.
|
sort [ArrayLabels] |
Sort an array in increasing order according to a comparison
function.
|
sort [Array] |
Sort an array in increasing order according to a comparison
function.
|
sort_uniq [ListLabels] |
|
sort_uniq [List] |
Same as List.sort , but also remove duplicates.
|
sorted_merge [Seq] |
If the sequences xs and ys are sorted according to the total preorder
cmp , then sorted_merge cmp xs ys is the sorted sequence obtained by
merging the sequences xs and ys .
|
span [Runtime_events.Type] |
An event that has a beginning and an end.
|
spawn [Domain] |
spawn f creates a new domain that runs in parallel with the
current domain.
|
split [Str] |
split r s splits s into substrings, taking as delimiters
the substrings that match r , and returns the list of substrings.
|
split [Set.S] |
split x s returns a triple (l, present, r) , where
l is the set of elements of s that are
strictly less than x ;
r is the set of elements of s that are
strictly greater than x ;
present is false if s contains no element equal to x ,
or true if s contains an element equal to x .
|
split [Seq] |
split is an alias for unzip .
|
split [Random.State] |
Draw a fresh PRNG state from the given PRNG state.
|
split [Random] |
Draw a fresh PRNG state from the current state of the domain-local
generator used by the default functions.
|
split [MoreLabels.Set.S] |
split x s returns a triple (l, present, r) , where
l is the set of elements of s that are
strictly less than x ;
r is the set of elements of s that are
strictly greater than x ;
present is false if s contains no element equal to x ,
or true if s contains an element equal to x .
|
split [MoreLabels.Map.S] |
split x m returns a triple (l, data, r) , where
l is the map with all the bindings of m whose key
is strictly less than x ;
r is the map with all the bindings of m whose key
is strictly greater than x ;
data is None if m contains no binding for x ,
or Some v if m binds v to x .
|
split [Map.S] |
split x m returns a triple (l, data, r) , where
l is the map with all the bindings of m whose key
is strictly less than x ;
r is the map with all the bindings of m whose key
is strictly greater than x ;
data is None if m contains no binding for x ,
or Some v if m binds v to x .
|
split [ListLabels] |
Transform a list of pairs into a pair of lists:
split [(a1,b1); ...; (an,bn)] is ([a1; ...; an], [b1; ...; bn]) .
|
split [List] |
Transform a list of pairs into a pair of lists:
split [(a1,b1); ...; (an,bn)] is ([a1; ...; an], [b1; ...; bn]) .
|
split [ArrayLabels] |
split [|(a1,b1); ...; (an,bn)|] is ([|a1; ...; an|], [|b1; ...; bn|]) .
|
split [Array] |
split [|(a1,b1); ...; (an,bn)|] is ([|a1; ...; an|], [|b1; ...; bn|]) .
|
split_delim [Str] |
Same as Str.split but occurrences of the
delimiter at the beginning and at the end of the string are
recognized and returned as empty strings in the result.
|
split_on_char [String] |
split_on_char sep s is the list of all (possibly empty)
substrings of s that are delimited by the character sep .
|
split_on_char [StringLabels] |
split_on_char ~sep s is the list of all (possibly empty)
substrings of s that are delimited by the character sep .
|
split_on_char [BytesLabels] |
split_on_char sep s returns the list of all (possibly empty)
subsequences of s that are delimited by the sep character.
|
split_on_char [Bytes] |
split_on_char sep s returns the list of all (possibly empty)
subsequences of s that are delimited by the sep character.
|
sprintf [Printf] |
Same as Printf.fprintf , but instead of printing on an output channel,
return a string containing the result of formatting the arguments.
|
sprintf [Format] |
Same as printf above, but instead of printing on a formatter,
returns a string containing the result of formatting the arguments.
|
sqrt [Stdlib] |
|
sqrt [Float] |
|
sqrt [Complex] |
|
sscanf [Scanf] |
|
sscanf_format [Scanf] |
|
sscanf_opt [Scanf] |
Same as Scanf.sscanf , but returns None in case of scanning failure.
|
stable_sort [ListLabels] |
Same as ListLabels.sort , but the sorting algorithm is guaranteed to
be stable (i.e.
|
stable_sort [List] |
Same as List.sort , but the sorting algorithm is guaranteed to
be stable (i.e.
|
stable_sort [Float.ArrayLabels] |
|
stable_sort [Float.Array] |
|
stable_sort [ArrayLabels] |
|
stable_sort [Array] |
Same as Array.sort , but the sorting algorithm is stable (i.e.
|
start [Runtime_events] |
start () will start the collection of events in the runtime if not already
started.
|
start [Gc.Memprof] |
Start a profile with the given parameters.
|
starts_with [String] |
starts_with ~prefix s is true if and only if s starts with
prefix .
|
starts_with [StringLabels] |
starts_with ~prefix s is true if and only if s starts with
prefix .
|
starts_with [BytesLabels] |
starts_with ~prefix s is true if and only if s starts with
prefix .
|
starts_with [Bytes] |
starts_with ~prefix s is true if and only if s starts with
prefix .
|
stat [UnixLabels.LargeFile] |
|
stat [UnixLabels] |
Return the information for the named file.
|
stat [Unix.LargeFile] |
|
stat [Unix] |
Return the information for the named file.
|
stat [Gc] |
Return the current values of the memory management counters in a
stat record that represent the program's total memory stats.
|
stats [CamlinternalOO] |
|
stats [Weak.S] |
Return statistics on the table.
|
stats [MoreLabels.Hashtbl.SeededS] |
|
stats [MoreLabels.Hashtbl.S] |
|
stats [MoreLabels.Hashtbl] |
Hashtbl.stats tbl returns statistics about the table tbl :
number of buckets, size of the biggest bucket, distribution of
buckets by size.
|
stats [Hashtbl.SeededS] |
|
stats [Hashtbl.S] |
|
stats [Hashtbl] |
Hashtbl.stats tbl returns statistics about the table tbl :
number of buckets, size of the biggest bucket, distribution of
buckets by size.
|
stats [Ephemeron.SeededS] |
|
stats [Ephemeron.S] |
|
stats_alive [Ephemeron.SeededS] |
|
stats_alive [Ephemeron.S] |
|
std_formatter [Format] |
The initial domain's standard formatter to write to standard output.
|
stdbuf [Format] |
The initial domain's string buffer in which str_formatter writes.
|
stderr [UnixLabels] |
File descriptor for standard error.
|
stderr [Unix] |
File descriptor for standard error.
|
stderr [Stdlib] |
The standard error output for the process.
|
stderr [Out_channel] |
The standard error output for the process.
|
stdin [UnixLabels] |
File descriptor for standard input.
|
stdin [Unix] |
File descriptor for standard input.
|
stdin [Stdlib] |
The standard input for the process.
|
stdin [Scanf.Scanning] |
The standard input notion for the Scanf module.
|
stdin [In_channel] |
The standard input for the process.
|
stdout [UnixLabels] |
File descriptor for standard output.
|
stdout [Unix] |
File descriptor for standard output.
|
stdout [Stdlib] |
The standard output for the process.
|
stdout [Out_channel] |
The standard output for the process.
|
stop [Gc.Memprof] |
Stop sampling for the current profile.
|
str_formatter [Format] |
The initial domain's formatter to output to the Format.stdbuf string buffer.
|
string [Digest.S] |
Return the digest of the given string.
|
string [Digest] |
Return the digest of the given string.
|
string_after [Str] |
string_after s n returns the substring of all characters of s
that follow position n (including the character at
position n ).
|
string_before [Str] |
string_before s n returns the substring of all characters of s
that precede position n (excluding the character at
position n ).
|
string_match [Str] |
string_match r s start tests whether a substring of s that
starts at position start matches the regular expression r .
|
string_of_bool [Stdlib] |
Return the string representation of a boolean.
|
string_of_float [Stdlib] |
Return a string representation of a floating-point number.
|
string_of_fmt [CamlinternalFormat] |
|
string_of_fmtty [CamlinternalFormat] |
|
string_of_format [Stdlib] |
Converts a format string into a string.
|
string_of_formatting_lit [CamlinternalFormat] |
|
string_of_inet_addr [UnixLabels] |
Return the printable representation of the given Internet address.
|
string_of_inet_addr [Unix] |
Return the printable representation of the given Internet address.
|
string_of_int [Stdlib] |
Return the string representation of an integer, in decimal.
|
string_partial_match [Str] |
Similar to Str.string_match , but also returns true if
the argument string is a prefix of a string that matches.
|
string_tag [Obj] |
|
strput_acc [CamlinternalFormat] |
|
sub [String] |
sub s pos len is a string of length len , containing the
substring of s that starts at position pos and has length
len .
|
sub [StringLabels] |
sub s ~pos ~len is a string of length len , containing the
substring of s that starts at position pos and has length
len .
|
sub [Nativeint] |
|
sub [Int64] |
|
sub [Int32] |
|
sub [Int] |
sub x y is the subtraction x - y .
|
sub [Float.ArrayLabels] |
sub a ~pos ~len returns a fresh floatarray of length len ,
containing the elements number pos to pos + len - 1
of floatarray a .
|
sub [Float.Array] |
sub a pos len returns a fresh floatarray of length len ,
containing the elements number pos to pos + len - 1
of floatarray a .
|
sub [Float] |
Floating-point subtraction.
|
sub [Complex] |
|
sub [BytesLabels] |
sub s ~pos ~len returns a new byte sequence of length len ,
containing the subsequence of s that starts at position pos
and has length len .
|
sub [Bytes] |
sub s pos len returns a new byte sequence of length len ,
containing the subsequence of s that starts at position pos
and has length len .
|
sub [Buffer] |
Buffer.sub b off len returns a copy of len bytes from the
current contents of the buffer b , starting at offset off .
|
sub [Bigarray.Array1] |
Extract a sub-array of the given one-dimensional Bigarray.
|
sub [ArrayLabels] |
sub a ~pos ~len returns a fresh array of length len ,
containing the elements number pos to pos + len - 1
of array a .
|
sub [Array] |
sub a pos len returns a fresh array of length len ,
containing the elements number pos to pos + len - 1
of array a .
|
sub_left [Bigarray.Array3] |
Extract a three-dimensional sub-array of the given
three-dimensional Bigarray by restricting the first dimension.
|
sub_left [Bigarray.Array2] |
Extract a two-dimensional sub-array of the given two-dimensional
Bigarray by restricting the first dimension.
|
sub_left [Bigarray.Genarray] |
Extract a sub-array of the given Bigarray by restricting the
first (left-most) dimension.
|
sub_right [Bigarray.Array3] |
Extract a three-dimensional sub-array of the given
three-dimensional Bigarray by restricting the second dimension.
|
sub_right [Bigarray.Array2] |
Extract a two-dimensional sub-array of the given two-dimensional
Bigarray by restricting the second dimension.
|
sub_right [Bigarray.Genarray] |
Extract a sub-array of the given Bigarray by restricting the
last (right-most) dimension.
|
sub_string [BytesLabels] |
|
sub_string [Bytes] |
Same as Bytes.sub but return a string instead of a byte sequence.
|
subbytes [Digest.S] |
subbytes s ofs len returns the digest of the subsequence
of s starting at index ofs and containing len bytes.
|
subbytes [Digest] |
Digest.subbytes s ofs len returns the digest of the subsequence
of s starting at index ofs and containing len bytes.
|
subset [Set.S] |
subset s1 s2 tests whether the set s1 is a subset of
the set s2 .
|
subset [MoreLabels.Set.S] |
subset s1 s2 tests whether the set s1 is a subset of
the set s2 .
|
substitute_first [Str] |
Same as Str.global_substitute , except that only the first substring
matching the regular expression is replaced.
|
substring [Digest.S] |
substring s ofs len returns the digest of the substring
of s starting at index ofs and containing len characters.
|
substring [Digest] |
Digest.substring s ofs len returns the digest of the substring
of s starting at index ofs and containing len characters.
|
succ [Uchar] |
succ u is the scalar value after u in the set of Unicode scalar
values.
|
succ [Stdlib] |
|
succ [Nativeint] |
|
succ [Int64] |
|
succ [Int32] |
|
succ [Int] |
|
succ [Float] |
succ x returns the floating point number right after x i.e.,
the smallest floating-point number greater than x .
|
symbol_end [Parsing] |
|
symbol_end_pos [Parsing] |
Same as symbol_end , but return a position instead of an offset.
|
symbol_start [Parsing] |
symbol_start and Parsing.symbol_end are to be called in the
action part of a grammar rule only.
|
symbol_start_pos [Parsing] |
Same as symbol_start , but return a position instead of an offset.
|
symlink [UnixLabels] |
symlink ?to_dir ~src ~dst creates the file dst as a symbolic link
to the file src .
|
symlink [Unix] |
symlink ?to_dir src dst creates the file dst as a symbolic link
to the file src .
|
symm [CamlinternalFormat] |
|
sync [Event] |
'Synchronize' on an event: offer all the communication
possibilities specified in the event to the outside world,
and block until one of the communications succeed.
|
synchronized_formatter_of_out_channel [Format] |
synchronized_formatter_of_out_channel oc returns the key to the
domain-local state that holds the domain-local formatter for writing to the
corresponding output channel oc .
|
system [UnixLabels] |
Execute the given command, wait until it terminates, and return
its termination status.
|
system [Unix] |
Execute the given command, wait until it terminates, and return
its termination status.
|
T |
tag [Runtime_events.User] |
tag t is the associated tag of event t , when it is known.
|
tag [Obj] |
|
take [Seq] |
take n xs is the sequence of the first n elements of xs .
|
take [Queue] |
take q removes and returns the first element in queue q ,
or raises Queue.Empty if the queue is empty.
|
take_opt [Queue] |
take_opt q removes and returns the first element in queue q ,
or returns None if the queue is empty.
|
take_while [Seq] |
take_while p xs is the longest prefix of the sequence xs
where every element x satisfies p x .
|
tan [Stdlib] |
|
tan [Float] |
|
tanh [Stdlib] |
|
tanh [Float] |
|
tcdrain [UnixLabels] |
Waits until all output written on the given file descriptor
has been transmitted.
|
tcdrain [Unix] |
Waits until all output written on the given file descriptor
has been transmitted.
|
tcflow [UnixLabels] |
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.
|
tcflow [Unix] |
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 [UnixLabels] |
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.
|
tcflush [Unix] |
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 [UnixLabels] |
Return the status of the terminal referred to by the given
file descriptor.
|
tcgetattr [Unix] |
Return the status of the terminal referred to by the given
file descriptor.
|
tcsendbreak [UnixLabels] |
Send a break condition on the given file descriptor.
|
tcsendbreak [Unix] |
Send a break condition on the given file descriptor.
|
tcsetattr [UnixLabels] |
Set the status of the terminal referred to by the given
file descriptor.
|
tcsetattr [Unix] |
Set the status of the terminal referred to by the given
file descriptor.
|
temp_dir [Filename] |
temp_dir prefix suffix creates and returns the name of a fresh
temporary directory with permissions perms (defaults to 0o700)
inside temp_dir .
|
temp_file [Filename] |
temp_file prefix suffix returns the name of a
fresh temporary file in the temporary directory.
|
time [UnixLabels] |
Return the current time since 00:00:00 GMT, Jan.
|
time [Unix] |
Return the current time since 00:00:00 GMT, Jan.
|
time [Sys] |
Return the processor time, in seconds, used by the program
since the beginning of execution.
|
times [UnixLabels] |
Return the execution times of the process.
|
times [Unix] |
Return the execution times of the process.
|
tl [ListLabels] |
Return the given list without its first element.
|
tl [List] |
Return the given list without its first element.
|
to_array [Dynarray] |
to_array a returns a fixed-sized array corresponding to the
dynamic array a .
|
to_binary_string [Random.State] |
Serializes the PRNG state into an immutable sequence of bytes.
|
to_buffer [Marshal] |
Marshal.to_buffer buff ofs len v flags marshals the value v ,
storing its byte representation in the sequence buff ,
starting at index ofs , and writing at most
len bytes.
|
to_bytes [String] |
Return a new byte sequence that contains the same bytes as the given
string.
|
to_bytes [StringLabels] |
Return a new byte sequence that contains the same bytes as the given
string.
|
to_bytes [Marshal] |
Marshal.to_bytes v flags returns a byte sequence containing
the representation of v .
|
to_bytes [Buffer] |
Return a copy of the current contents of the buffer.
|
to_channel [Marshal] |
Marshal.to_channel chan v flags writes the representation
of v on channel chan .
|
to_char [Uchar] |
to_char u is u as an OCaml latin1 character.
|
to_dispenser [Seq] |
to_dispenser xs is a fresh dispenser on the sequence xs .
|
to_float [Nativeint] |
Convert the given native integer to a floating-point number.
|
to_float [Int64] |
Convert the given 64-bit integer to a floating-point number.
|
to_float [Int32] |
Convert the given 32-bit integer to a floating-point number.
|
to_float [Int] |
to_float x is x as a floating point number.
|
to_float [Bool] |
to_float b is 0. if b is false and 1. if b is true .
|
to_hex [Digest.S] |
Return the printable hexadecimal representation of the given digest.
|
to_hex [Digest] |
Return the printable hexadecimal representation of the given digest.
|
to_int [Uchar] |
to_int u is u as an integer.
|
to_int [Nativeint] |
Convert the given native integer (type nativeint ) to an
integer (type int ).
|
to_int [Int64] |
Convert the given 64-bit integer (type int64 ) to an
integer (type int ).
|
to_int [Int32] |
Convert the given 32-bit integer (type int32 ) to an
integer (type int ).
|
to_int [Float] |
Truncate the given floating-point number to an integer.
|
to_int [Bool] |
to_int b is 0 if b is false and 1 if b is true .
|
to_int32 [Nativeint] |
Convert the given native integer to a
32-bit integer (type int32 ).
|
to_int32 [Int64] |
Convert the given 64-bit integer (type int64 ) to a
32-bit integer (type int32 ).
|
to_int64 [Runtime_events.Timestamp] |
|
to_list [Set.S] |
|
to_list [Result] |
to_list r is [v] if r is Ok v and [] otherwise.
|
to_list [Option] |
to_list o is [] if o is None and [v] if o is Some v .
|
to_list [MoreLabels.Set.S] |
|
to_list [MoreLabels.Map.S] |
|
to_list [Map.S] |
|
to_list [Float.ArrayLabels] |
to_list a returns the list of all the elements of a .
|
to_list [Float.Array] |
to_list a returns the list of all the elements of a .
|
to_list [Dynarray] |
to_list a is a list with the elements contained in the array a .
|
to_list [ArrayLabels] |
to_list a returns the list of all the elements of a .
|
to_list [Array] |
to_list a returns the list of all the elements of a .
|
to_nativeint [Int64] |
Convert the given 64-bit integer (type int64 ) to a
native integer.
|
to_option [Result] |
to_option r is r as an option, mapping Ok v to Some v and
Error _ to None .
|
to_result [Option] |
to_result ~none o is Ok v if o is Some v and Error none
otherwise.
|
to_rev_seq [Set.S] |
Iterate on the whole set, in descending order
|
to_rev_seq [MoreLabels.Set.S] |
Iterate on the whole set, in descending order
|
to_rev_seq [MoreLabels.Map.S] |
Iterate on the whole map, in descending order of keys
|
to_rev_seq [Map.S] |
Iterate on the whole map, in descending order of keys
|
to_seq [String] |
to_seq s is a sequence made of the string's characters in
increasing order.
|
to_seq [StringLabels] |
to_seq s is a sequence made of the string's characters in
increasing order.
|
to_seq [Stack] |
Iterate on the stack, top to bottom.
|
to_seq [Set.S] |
Iterate on the whole set, in ascending order
|
to_seq [Result] |
to_seq r is r as a sequence.
|
to_seq [Queue] |
Iterate on the queue, in front-to-back order.
|
to_seq [Option] |
to_seq o is o as a sequence.
|
to_seq [MoreLabels.Set.S] |
Iterate on the whole set, in ascending order
|
to_seq [MoreLabels.Map.S] |
Iterate on the whole map, in ascending order of keys
|
to_seq [MoreLabels.Hashtbl.SeededS] |
|
to_seq [MoreLabels.Hashtbl.S] |
|
to_seq [MoreLabels.Hashtbl] |
Iterate on the whole table.
|
to_seq [Map.S] |
Iterate on the whole map, in ascending order of keys
|
to_seq [ListLabels] |
|
to_seq [List] |
|
to_seq [Hashtbl.SeededS] |
|
to_seq [Hashtbl.S] |
|
to_seq [Hashtbl] |
Iterate on the whole table.
|
to_seq [Float.ArrayLabels] |
Iterate on the floatarray, in increasing order.
|
to_seq [Float.Array] |
Iterate on the floatarray, in increasing order.
|
to_seq [Dynarray] |
to_seq a is the sequence of elements
get a 0 , get a 1 ...
|
to_seq [BytesLabels] |
Iterate on the string, in increasing index order.
|
to_seq [Bytes] |
Iterate on the string, in increasing index order.
|
to_seq [Buffer] |
Iterate on the buffer, in increasing order.
|
to_seq [ArrayLabels] |
Iterate on the array, in increasing order.
|
to_seq [Array] |
Iterate on the array, in increasing order.
|
to_seq_from [Set.S] |
to_seq_from x s iterates on a subset of the elements of s
in ascending order, from x or above.
|
to_seq_from [MoreLabels.Set.S] |
to_seq_from x s iterates on a subset of the elements of s
in ascending order, from x or above.
|
to_seq_from [MoreLabels.Map.S] |
to_seq_from k m iterates on a subset of the bindings of m ,
in ascending order of keys, from key k or above.
|
to_seq_from [Map.S] |
to_seq_from k m iterates on a subset of the bindings of m ,
in ascending order of keys, from key k or above.
|
to_seq_keys [MoreLabels.Hashtbl.SeededS] |
|
to_seq_keys [MoreLabels.Hashtbl.S] |
|
to_seq_keys [MoreLabels.Hashtbl] |
Same as Seq.map fst (to_seq m)
|
to_seq_keys [Hashtbl.SeededS] |
|
to_seq_keys [Hashtbl.S] |
|
to_seq_keys [Hashtbl] |
Same as Seq.map fst (to_seq m)
|
to_seq_reentrant [Dynarray] |
to_seq_reentrant a is a reentrant variant of Dynarray.to_seq , in the
sense that one may still access its elements after the length of
a has changed.
|
to_seq_rev [Dynarray] |
to_seq_rev a is the sequence of elements
get a (l - 1) , get a (l - 2) ...
|
to_seq_rev_reentrant [Dynarray] |
to_seq_rev_reentrant a is a reentrant variant of Dynarray.to_seq_rev ,
in the sense that one may still access its elements after the
length of a has changed.
|
to_seq_values [MoreLabels.Hashtbl.SeededS] |
|
to_seq_values [MoreLabels.Hashtbl.S] |
|
to_seq_values [MoreLabels.Hashtbl] |
Same as Seq.map snd (to_seq m)
|
to_seq_values [Hashtbl.SeededS] |
|
to_seq_values [Hashtbl.S] |
|
to_seq_values [Hashtbl] |
Same as Seq.map snd (to_seq m)
|
to_seqi [String] |
to_seqi s is like String.to_seq but also tuples the corresponding index.
|
to_seqi [StringLabels] |
|
to_seqi [Float.ArrayLabels] |
Iterate on the floatarray, in increasing order, yielding indices along
elements.
|
to_seqi [Float.Array] |
Iterate on the floatarray, in increasing order, yielding indices along
elements.
|
to_seqi [BytesLabels] |
Iterate on the string, in increasing order, yielding indices along chars
|
to_seqi [Bytes] |
Iterate on the string, in increasing order, yielding indices along chars
|
to_seqi [Buffer] |
Iterate on the buffer, in increasing order, yielding indices along chars.
|
to_seqi [ArrayLabels] |
Iterate on the array, in increasing order, yielding indices along elements.
|
to_seqi [Array] |
Iterate on the array, in increasing order, yielding indices along elements.
|
to_string [Unit] |
|
to_string [Printexc] |
Printexc.to_string e returns a string representation of
the exception e .
|
to_string [Nativeint] |
Return the string representation of its argument, in decimal.
|
to_string [Marshal] |
Same as to_bytes but return the result as a string instead of
a byte sequence.
|
to_string [Int64] |
Return the string representation of its argument, in decimal.
|
to_string [Int32] |
Return the string representation of its argument, in signed decimal.
|
to_string [Int] |
to_string x is the written representation of x in decimal.
|
to_string [Float] |
Return a string representation of a floating-point number.
|
to_string [BytesLabels] |
Return a new string that contains the same bytes as the given byte
sequence.
|
to_string [Bytes] |
Return a new string that contains the same bytes as the given byte
sequence.
|
to_string [Bool] |
to_string b is "true" if b is true and "false" if b is
false .
|
to_string_default [Printexc] |
Printexc.to_string_default e returns a string representation of the
exception e , ignoring all registered exception printers.
|
top [Stack] |
top s returns the topmost element in stack s ,
or raises Stack.Empty if the stack is empty.
|
top [Queue] |
top is a synonym for peek .
|
top_opt [Stack] |
top_opt s returns the topmost element in stack s ,
or None if the stack is empty.
|
total_size [Marshal] |
|
trans [CamlinternalFormat] |
|
transfer [Queue] |
transfer q1 q2 adds all of q1 's elements at the end of
the queue q2 , then clears q1 .
|
transpose [Seq] |
If xss is a matrix (a sequence of rows), then transpose xss is
the sequence of the columns of the matrix xss .
|
trim [String] |
trim s is s without leading and trailing whitespace.
|
trim [StringLabels] |
trim s is s without leading and trailing whitespace.
|
trim [BytesLabels] |
Return a copy of the argument, without leading and trailing
whitespace.
|
trim [Bytes] |
Return a copy of the argument, without leading and trailing
whitespace.
|
trunc [Float] |
trunc x rounds x to the nearest integer whose absolute value is
less than or equal to x .
|
truncate [UnixLabels.LargeFile] |
|
truncate [UnixLabels] |
Truncates the named file to the given size.
|
truncate [Unix.LargeFile] |
|
truncate [Unix] |
Truncates the named file to the given size.
|
truncate [Stdlib] |
|
truncate [Dynarray] |
truncate a n truncates a to have at most n elements.
|
truncate [Buffer] |
truncate b len truncates the length of b to len
Note: the internal byte sequence is not shortened.
|
try_acquire [Semaphore.Binary] |
try_acquire s immediately returns false if the semaphore s
has value 0.
|
try_acquire [Semaphore.Counting] |
try_acquire s immediately returns false if the value of semaphore s
is zero.
|
try_lock [Mutex] |
Same as Mutex.lock , but does not suspend the calling thread if
the mutex is already locked: just return false immediately
in that case.
|
try_with [Effect.Deep] |
try_with f v h runs the computation f v under the handler h .
|
type_format [CamlinternalFormat] |
|
U |
uid [Type.Id] |
uid id is a runtime unique identifier for id .
|
umask [UnixLabels] |
Set the process's file mode creation mask, and return the previous
mask.
|
umask [Unix] |
Set the process's file mode creation mask, and return the previous
mask.
|
unaligned_tag [Obj] |
|
uncapitalize_ascii [String] |
uncapitalize_ascii s is s with the first character set to lowercase,
using the US-ASCII character set.
|
uncapitalize_ascii [StringLabels] |
uncapitalize_ascii s is s with the first character set to lowercase,
using the US-ASCII character set.
|
uncapitalize_ascii [BytesLabels] |
Return a copy of the argument, with the first character set to lowercase,
using the US-ASCII character set.
|
uncapitalize_ascii [Bytes] |
Return a copy of the argument, with the first character set to lowercase,
using the US-ASCII character set.
|
uncons [Seq] |
If xs is empty, then uncons xs is None .
|
unescaped [Scanf] |
unescaped s return a copy of s with escape sequences (according to
the lexical conventions of OCaml) replaced by their corresponding special
characters.
|
unfold [Seq] |
unfold constructs a sequence
out of a step function and an initial state.
|
union [Set.S] |
|
union [MoreLabels.Set.S] |
|
union [MoreLabels.Map.S] |
union ~f m1 m2 computes a map whose keys are a subset of the keys
of m1 and of m2 .
|
union [Map.S] |
union f m1 m2 computes a map whose keys are a subset of the keys
of m1 and of m2 .
|
unit [Runtime_events.Type] |
An event that has no data associated with it.
|
unix [Sys] |
True if Sys.os_type = "Unix" .
|
unlink [UnixLabels] |
|
unlink [Unix] |
|
unlock [Mutex] |
|
unsafe_environment [UnixLabels] |
Return the process environment, as an array of strings with the
format ``variable=value''.
|
unsafe_environment [Unix] |
Return the process environment, as an array of strings with the
format ``variable=value''.
|
unsafe_get [Bigarray.Array3] |
|
unsafe_get [Bigarray.Array2] |
|
unsafe_get [Bigarray.Array1] |
|
unsafe_getenv [UnixLabels] |
Return the value associated to a variable in the process
environment.
|
unsafe_getenv [Unix] |
Return the value associated to a variable in the process
environment.
|
unsafe_of_string [BytesLabels] |
Unsafely convert a shared string to a byte sequence that should
not be mutated.
|
unsafe_of_string [Bytes] |
Unsafely convert a shared string to a byte sequence that should
not be mutated.
|
unsafe_set [Bigarray.Array3] |
|
unsafe_set [Bigarray.Array2] |
|
unsafe_set [Bigarray.Array1] |
|
unsafe_to_string [BytesLabels] |
Unsafely convert a byte sequence into a string.
|
unsafe_to_string [Bytes] |
Unsafely convert a byte sequence into a string.
|
unset_data [Obj.Ephemeron] |
|
unset_key [Obj.Ephemeron] |
|
unsigned_compare [Nativeint] |
Same as Nativeint.compare , except that arguments are interpreted as unsigned
native integers.
|
unsigned_compare [Int64] |
Same as Int64.compare , except that arguments are interpreted as unsigned
64-bit integers.
|
unsigned_compare [Int32] |
Same as Int32.compare , except that arguments are interpreted as unsigned
32-bit integers.
|
unsigned_div [Nativeint] |
Same as Nativeint.div , except that arguments and result are interpreted as unsigned native integers.
|
unsigned_div [Int64] |
Same as Int64.div , except that arguments and result are interpreted as unsigned 64-bit integers.
|
unsigned_div [Int32] |
Same as Int32.div , except that arguments and result are interpreted as unsigned 32-bit integers.
|
unsigned_rem [Nativeint] |
Same as Nativeint.rem , except that arguments and result are interpreted as unsigned native integers.
|
unsigned_rem [Int64] |
Same as Int64.rem , except that arguments and result are interpreted as unsigned 64-bit integers.
|
unsigned_rem [Int32] |
Same as Int32.rem , except that arguments and result are interpreted as unsigned 32-bit integers.
|
unsigned_to_int [Nativeint] |
|
unsigned_to_int [Int64] |
Same as Int64.to_int , but interprets the argument as an unsigned integer.
|
unsigned_to_int [Int32] |
Same as Int32.to_int , but interprets the argument as an unsigned integer.
|
unzip [Seq] |
unzip transforms a sequence of pairs into a pair of sequences.
|
update [MoreLabels.Map.S] |
update ~key ~f m returns a map containing the same bindings as
m , except for the binding of key .
|
update [Map.S] |
update key f m returns a map containing the same bindings as
m , except for the binding of key .
|
update_geometry [Format] |
|
update_mod [CamlinternalMod] |
|
uppercase_ascii [String] |
uppercase_ascii s is s with all lowercase letters
translated to uppercase, using the US-ASCII character set.
|
uppercase_ascii [StringLabels] |
uppercase_ascii s is s with all lowercase letters
translated to uppercase, using the US-ASCII character set.
|
uppercase_ascii [Char] |
Convert the given character to its equivalent uppercase character,
using the US-ASCII character set.
|
uppercase_ascii [BytesLabels] |
Return a copy of the argument, with all lowercase letters
translated to uppercase, using the US-ASCII character set.
|
uppercase_ascii [Bytes] |
Return a copy of the argument, with all lowercase letters
translated to uppercase, using the US-ASCII character set.
|
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.
|
use_printers [Printexc] |
Printexc.use_printers e returns None if there are no registered
printers and Some s with else as the resulting string otherwise.
|
utf_16_byte_length [Uchar] |
utf_16_byte_length u is the number of bytes needed to encode
u in UTF-16.
|
utf_8_byte_length [Uchar] |
utf_8_byte_length u is the number of bytes needed to encode
u in UTF-8.
|
utf_decode [Uchar] |
utf_decode n u is a valid UTF decode for u that consumed n
elements from the source for decoding.
|
utf_decode_invalid [Uchar] |
utf_decode_invalid n is an invalid UTF decode that consumed n
elements from the source to error.
|
utf_decode_is_valid [Uchar] |
utf_decode_is_valid d is true if and only if d holds a valid
decode.
|
utf_decode_length [Uchar] |
utf_decode_length d is the number of elements from the source
that were consumed by the decode d .
|
utf_decode_uchar [Uchar] |
utf_decode_uchar d is the Unicode character decoded by d if
utf_decode_is_valid d is true and Uchar.rep otherwise.
|
utimes [UnixLabels] |
Set the last access time (second arg) and last modification time
(third arg) for a file.
|
utimes [Unix] |
Set the last access time (second arg) and last modification time
(third arg) for a file.
|
V |
value [Result] |
value r ~default is v if r is Ok v and default otherwise.
|
value [Option] |
value o ~default is v if o is Some v and default otherwise.
|
W |
wait [UnixLabels] |
Wait until one of the children processes die, and return its pid
and termination status.
|
wait [Unix] |
Wait until one of the children processes die, and return its pid
and termination status.
|
wait [Condition] |
The call wait c m is permitted only if m is the mutex associated
with the condition variable c , and only if m is currently locked.
|
wait_pid [Thread] |
|
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] |
|
wait_timed_write [Thread] |
Suspend the execution of the calling thread until at least
one character or EOF is available for reading (wait_timed_read ) or
one character can be written without blocking (wait_timed_write )
on the given Unix file descriptor.
|
waitpid [UnixLabels] |
Same as UnixLabels.wait , but waits for the child process whose pid is given.
|
waitpid [Unix] |
Same as Unix.wait , but waits for the child process whose pid is given.
|
widen [CamlinternalOO] |
|
win32 [Sys] |
True if Sys.os_type = "Win32" .
|
with_open_bin [Out_channel] |
with_open_bin fn f opens a channel oc on file fn and returns f
oc .
|
with_open_bin [In_channel] |
with_open_bin fn f opens a channel ic on file fn and returns f
ic .
|
with_open_gen [Out_channel] |
|
with_open_gen [In_channel] |
|
with_open_text [Out_channel] |
|
with_open_text [In_channel] |
|
with_positions [Lexing] |
Tell whether the lexer buffer keeps track of position fields
lex_curr_p / lex_start_p , as determined by the corresponding
optional argument for functions that create lexer buffers
(whose default value is true ).
|
with_tag [Obj] |
|
word_size [Sys] |
Size of one word on the machine currently executing the OCaml
program, in bits: 32 or 64.
|
wrap [Event] |
wrap ev fn returns the event that performs the same communications
as ev , then applies the post-processing function fn
on the return value.
|
wrap_abort [Event] |
wrap_abort ev fn returns the event that performs
the same communications as ev , but if it is not selected
the function fn is called after the synchronization.
|
write [UnixLabels] |
write fd ~buf ~pos ~len writes len bytes to descriptor fd ,
taking them from byte sequence buf , starting at position pos
in buff .
|
write [Unix] |
write fd buf pos len writes len bytes to descriptor fd ,
taking them from byte sequence buf , starting at position pos
in buff .
|
write [Runtime_events.User] |
write t v emits value v for event t .
|
write_arg [Arg] |
Arg.write_arg file args writes the arguments args newline-terminated
into the file file .
|
write_arg0 [Arg] |
Identical to Arg.write_arg but uses the null character for terminator
instead of newline.
|
write_bigarray [UnixLabels] |
|
write_bigarray [Unix] |
Same as Unix.write , but take the data from a bigarray.
|
write_substring [UnixLabels] |
Same as UnixLabels.write , but take the data from a string instead of a byte
sequence.
|
write_substring [Unix] |
Same as Unix.write , but take the data from a string instead of a byte
sequence.
|
Y |
yield [Thread] |
Re-schedule the calling thread without suspending it.
|
Z |
zero [Nativeint] |
|
zero [Int64] |
|
zero [Int32] |
|
zero [Int] |
|
zero [Float] |
|
zero [Complex] |
|
zip [Seq] |
zip xs ys is the sequence of pairs (x, y)
drawn synchronously from the sequences xs and ys .
|