• deprecated Use (&&) instead.

• deprecated Use (||) instead.

Returns an enumeration over lines of an input channel, as read by the input_line function.

Returns an enumeration over characters of an input channel.

Returns the list of lines read from an input channel.

Return the whole contents of an input channel as a single string.

Attempt to convert a value to a string.

Works well for a lot of cases such as non-empty lists, algebraic datatype, and records.

However, since types are lost at compile-time, the representation might not match your type. (0, 1) will be printed as expected, but (1, 0) and 1 have the same representation and will get printed in the same way. The result of dump is unspecified and may change in future versions, so you should only use it for debugging and never have program behavior depend on the output.

Here is a list of some of the surprising corner cases of the current implementation:

• (3, 0) is printed 3, (0.5, 0) is printed 0.5, etc.
• None, false and are printed 0

dump may fail for ill-formed values, such as obtained from a faulty C binding or crazy uses of Obj.set_tag.

Attempt to print a value to an output.

Uses dump to convert the value to a string and prints that string to the output.

List concatenation.

Standard input, as per Unix/Windows conventions (by default, keyboard).

Use this input to read what the user is writing on the keyboard.

Standard output, as per Unix/Windows conventions (by default, console).

Use this output to display regular messages.

Standard error output, as per Unix/Windows conventions.

Use this output to display warnings and error messages.

An output which discards everything written to it.

Use this output to ignore messages.

Write all pending data to output channels, ignore all errors.

It is normally not necessary to call this function, as all pending data is written when an output channel is closed or when the program itself terminates, either normally or because of an uncaught exception. However, this function is useful for debugging, as it forces pending data to be written immediately.

Print a boolean on standard output.

Attempt to print the representation of a runtime value on the standard output. See remarks for dump. This function is useful mostly for debugging. As a general rule, it should not be used in production code.

Print the contents of an input to the standard output.

Print a boolean to stderr.

Attempt to print the representation of a runtime value on the error output. See remarks for dump. This function is useful mostly for debugging.

Print the contents of an input to the error output.

creates a filename, write text into it and close it.

Open the named file for writing, and return a new output channel on that file. You will need to close the file once you have finished using it.

You may use optional argument mode to decide whether the output will overwrite the contents of the file (by default) or to add things at the end of the file, whether the file should be created if it does not exist yet (the default) or not, whether this operation should proceed if the file exists already (the default) or not, whether the file should be opened as text (the default) or as binary, and whether the file should be opened for non-blocking operations.

You may use optional argument perm to specify the permissions of the file, as per Unix conventions. By default, files are created with default permissions (which depend on your setup).

• raises Sys_error

  if the file could not be opened.

Same as open_out, but the file is opened in binary mode, so that no translation takes place during writes. On operating systems that do not distinguish between text mode and binary mode, this function behaves like open_out without any mode or perm.

open_out_gen mode perm filename opens the named file for writing, as described above. The extra argument mode specifies the opening mode. The extra argument perm specifies the file permissions, in case the file must be created.

• deprecated

  Use open_outinstead

Flush the buffer associated with the given output, performing all pending writes on that channel. Interactive programs must be careful about flushing standard output and standard error at the right time.

Write the character on the given output channel.

Write the string on the given output channel.

output oc buf pos len writes len characters from byte sequence buf, starting at offset pos, to the given output channel oc.

• raises Invalid_argument

  if pos and len do not designate a valid subsequence of buf.

output_substring oc buf pos len writes len characters from string buf, starting at offset pos, to the given output channel oc.

• raises Invalid_argument

  if pos and len do not designate a valid substring of buf.

Write one 8-bit integer (as the single character with that code) on the given output channel. The given integer is taken modulo 256.

Write one integer in binary format (4 bytes, big-endian) on the given output channel. The given integer is taken modulo 2³². The only reliable way to read it back is through the Pervasives.input_binary_int function. The format is compatible across all machines for a given version of OCaml.

Write one float in binary format (8 bytes, IEEE 754 double format) on the given output channel. The only reliable way to read it back is through the Pervasives.input_binary_float function. The format is compatible across all machines for a given version of OCaml.

Write the representation of a structured value of any type to a channel. Circularities and sharing inside the value are detected and preserved. The object can be read back, by the function input_value. See the description of module Marshal for more information. output_value is equivalent to Marshal.output with an empty list of flags.

Close the given channel, flushing all buffered write operations. Output functions raise a Sys_error exception when they are applied to a closed output channel, except close_out and flush, which do nothing when applied to an already closed channel.

• raises Sys_error

  if the operating system signals an error when flushing or closing.

Same as close_out, but ignore all errors.

returns the data of a given filename.

Open the named file for reading. You will need to close the file once you have finished using it.

You may use optional argument mode to decide whether the opening should fail if the file doesn't exist yet (by default) or whether the file should be created if it doesn't exist yet, whether the opening should fail if the file already exists or not (by default), whether the file should be read as binary (by default) or as text, and whether reading should be non-blocking.

You may use optional argument perm to specify the permissions of the file, should it be created, as per Unix conventions. By default, files are created with default permissions (which depend on your setup).

• raises Sys_error

  if the file could not be opened.

Same as Pervasives.open_in, but the file is opened in binary mode, so that no translation takes place during reads. On operating systems that do not distinguish between text mode and binary mode, this function behaves like Pervasives.open_in.

open_in_gen mode perm filename opens the named file for reading, as described above. The extra arguments mode and perm specify the opening mode and file permissions. Pervasives.open_in and Pervasives.open_in_bin are special cases of this function.

• deprecated

  Use open_ininstead

Read one character from the given input channel.

• raises End_of_file

  if there are no more characters to read.

Read characters from the given input channel, until a newline character is encountered. Return the string of all characters read, without the newline character at the end.

• raises End_of_file

  if the end of the file is reached at the beginning of line.

input ic buf pos len reads up to len characters from the given channel ic, storing them in byte sequence buf, starting at character number pos. It returns the actual number of characters read, between 0 and len (inclusive). A return value of 0 means that the end of file was reached. A return value between 0 and len exclusive means that not all requested len characters were read, either because no more characters were available at that time, or because the implementation found it convenient to do a partial read; input must be called again to read the remaining characters, if desired. (See also Pervasives.really_input for reading exactly len characters.)

• raises Invalid_argument

  if pos and len do not designate a valid subsequence of buf.

really_input ic buf pos len reads len characters from channel ic, storing them in byte sequence buf, starting at character number pos.

• raises End_of_file

  if the end of file is reached before len characters have been read.

• raises Invalid_argument

  if pos and len do not designate a valid subsequence of buf.

Same as Pervasives.input_char, but return the 8-bit integer representing the character.

• raises End_of_file

  if an end of file was reached.

Read an integer encoded in binary format (4 bytes, big-endian) from the given input channel. See Pervasives.output_binary_int.

• raises End_of_file

  if an end of file was reached while reading the integer.

Read a float encoded in binary format (8 bytes, IEEE 754 double format) from the given input channel. See Pervasives.output_binary_float.

• raises End_of_file

  if an end of file was reached while reading the float.

Read the representation of a structured value, as produced by output_value, and return the corresponding value. This function is identical to Marshal.input; see the description of module Marshal for more information, in particular concerning the lack of type safety.

Close the given channel. Input functions raise a Sys_error exception when they are applied to a closed input channel, except close_in, which does nothing when applied to an already closed channel.

• raises Sys_error

  if the operating system signals an error.

Same as close_in, but ignore all errors.

The identity function.

The undefined function.

Evaluating undefined x always fails and raises an exception "Undefined". Optional argument message permits the customization of the error message.

Function composition: the mathematical o operator. f % g is fun x -> f (g x). It is similar to Haskell's ..

Examples: the following are equivalent: f (g (h x)), f @@ g @@ h x, f % g % h @@ x.

The "pipe": function application. x |> f is equivalent to f x.

This operator is commonly used to write a function composition by order of evaluation (the order used in object-oriented programming) rather than by inverse order (the order typically used in functional programming).

For instance, g (f x) means "apply f to x, then apply g to the result." The corresponding notation in most object-oriented programming languages would be somewhere along the lines of x.f.g.h(), or "starting from x, apply f, then apply g." In OCaml, using the ( |> ) operator, this is written x |> f |> g |> h.

This operator may also be useful for composing sequences of function calls without too many parentheses.

Piping function composition. f %> g is fun x -> g (f x). Whereas f % g applies g first and f second, f %> g applies f, then g. Note that it plays well with pipes, so for instance x |> f %> g %> h |> i %> j yields the expected result... but in such cases it's still recommended to use |> only. Note that it replaces pre-2.0 |-, which didn't integrate with pipes.

Like BatOption.default, with the arguments reversed. None |? 10 returns 10, while Some "foo" |? "bar" returns "foo".

Note This operator does not short circuit like ( || ) and ( && ). Both arguments will be evaluated.

• since 2.0

Argument flipping.

flip f x y is f y x. Don't abuse this function, it may shorten considerably your code but it also has the nasty habit of making it harder to read.

Convert a function which accepts a pair of arguments into a function which accepts two arguments.

curry f is fun x y -> f (x,y)

Convert a function which accepts two arguments into a function which accepts a pair of arguments.

uncurry f is fun (x, y) -> f x y

neg p returns a new predicate that is the negation of the given predicate. That is, the new predicate returns false when the input predicate returns true and vice versa. This is for predicates with one argument.

neg p is fun x -> not (p x)

as neg but for predicates with two arguments

Ignore its second argument.

const x is the function which always returns x.

Returns an unique identifier every time it is called.

Note This is thread-safe.

Allows application of a function in the middle of a pipe sequence without disturbing the sequence. x |> tap f evaluates to x, but has the side effect of f x. Useful for debugging.

finally fend f x calls f x and then fend() even if f x raised an exception.

with_dispose dispose f x invokes f on x, calling dispose x when f terminates (either with a return value or an exception).

forever f x invokes f on x repeatedly (until an exception occurs).

ignore_exceptions f x invokes f on x, ignoring both the returned value and the exceptions that may be raised.

verify_arg condition message will raise Invalid_argument message if condition is false, otherwise it does nothing.

• since 2.0

An enumeration of the arguments passed to this program through the command line.

args () is given by the elements of Sys.argv, minus the first element.

The name of the current executable.

exe is given by the first argument of Sys.argv

Imperative loop on an enumeration.

foreach e f applies function f to each successive element of e. For instance, foreach (1 -- 10) print_int invokes function print_int on 1, 2, ..., 10, printing 12345678910.

Note This function is one of the many loops available on enumerations. Other commonly used loops are iter (same usage scenario as foreach, but with different notations), map (convert an enumeration to another enumeration) or fold (flatten an enumeration by applying an operation to each element).

Imperative loop on an enumeration. This loop is typically used to lift a function with an effect but no meaningful result and get it to work on enumerations.

If f is a function iter f is a function which behaves as f but acts upon enumerations rather than individual elements. As indicated in the type of iter, f must produce values of type unit (i.e. f has no meaningful result) the resulting function produces no meaningful result either.

In other words, iter f is a function which, when applied upon an enumeration e, calls f with each element of e in turn.

For instance, iter f (1 -- 10) invokes function f on 1, 2, ..., 10 and produces value ().

Transformation loop on an enumeration, used to build an enumeration from another enumeration. This loop is typically used to transform an enumeration into another enumeration with the same number of elements, in the same order.

If f is a function, map f e is a function which behaves as f but acts upon enumerations rather than individual elements -- and builds a new enumeration from the results of each application.

In other words, map f is a function which, when applied upon an enumeration containing elements e0, e1, ..., produces enumeration f e0, f e1, ...

For instance, if odd is the function which returns true when applied to an odd number or false when applied to an even number, map odd (1 -- 10) produces enumeration true, false, true, ..., false.

Similarly, if square is the function fun x -> x * x, map square (1 -- 10) produces the enumeration of the square numbers of all numbers between 1 and 10.

Similar to a map, except that you can skip over some items of the incoming enumeration by returning None instead of Some value. Think of it as a filter combined with a map.

Transformation loop on an enumeration, used to build a single value from an enumeration.

If f is a function and e is an enumeration, reduce f e applies function f to the first two elements of e, then to the result of this expression and to the third element of e, then to the result of this new expression and to the fourth element of e...

In other words, reduce f e returns a0 if e contains only one element a0, otherwise f (... (f (f a0) a1) ...) aN where a0,a1..aN are the elements of e.

• raises Not_found

  if e is empty.

For instance, if add is the function fun x y -> x + y, reduce add is the function which computes the sum of the elements of an enumeration -- and doesn't work on empty enumerations. Therefore, reduce add (1 -- 10) produces result 55.

Transformation loop on an enumeration, used to build a single value from an enumeration. This is the most powerful general-purpose loop and also the most complex.

If f is a function, fold f v e applies f v to the first element of e, then, calling acc_1 the result of this operation, applies f acc_1 to the second element of e, then, calling acc_2 the result of this operation, applies f acc_2 to the third element of e...

In other words, fold f v e returns v if e is empty, otherwise f (... (f (f v a0) a1) ...) aN where a0,a1..aN are the elements of e.

For instance, if add is the function fun x y -> x + y, fold add 0 is the function which computes the sum of the elements of an enumeration. Therefore, fold add 0 (1 -- 10) produces result 55.

Functional loop on an enumeration, used to build an enumeration from both an enumeration and an initial value. This function may be seen as a variant of fold which returns not only the final result of fold but the enumeration of all the intermediate results of fold.

If f is a function, scanl f v e is applies f v to the first element of e, then, calling acc_1 the result of this operation, applies f acc_1 to the second element of e, then, calling acc_2 the result of this operation, applies f acc_2 to the third element of e...

For instance, if add is the function fun x y -> x + y, scanl add 0 is the function which computes the sum of the elements of an enumeration. Therefore, scanl add 0 (1 -- 10) produces result the enumeration with elements 0, 1, 3, 6, 10, 15, 21, 28, 36, 45, 55.

Mapping operators.

These operators have the same meaning as function map but are sometimes more readable than this function, when chaining several transformations in a row.

Map combined with filter. Same as filter_map.

exists f e returns true if there is some x in e such that f x

for_all f e returns true if for every x in e, f x is true

find f e returns the first element x of e such that f x returns true, consuming the enumeration up to and including the found element, or, raises Not_found if no such element exists in the enumeration, consuming the whole enumeration in the search.

Since find consumes a prefix of the enumeration, it can be used several times on the same enumeration to find the next element.

• raises Not_found

  if no element in the whole enumeration satisfies the predicate

peek e returns None if e is empty or Some x where x is the next element of e. The element is not removed from the enumeration.

get e returns None if e is empty or Some x where x is the next element of e, in which case the element is removed from the enumeration.

push e x will add x at the beginning of e.

junk e removes the first element from the enumeration, if any.

filter f e returns an enumeration over all elements x of e such as f x returns true.

Filtering (pronounce this operator name "such that").

For instance, (1 -- 37) // odd is the enumeration of all odd numbers between 1 and 37.

Enumerate numbers.

5 -- 10 is the enumeration 5,6,7,8,9,10. 10 -- 5 is the empty enumeration

Enumerate numbers, without the right endpoint

5 -- 10 is the enumeration 5,6,7,8,9.

(a, step) --. b) creates a float enumeration from a to b with an increment of step between elements.

(5.0, 1.0) --. 10.0 is the enumeration 5.0,6.0,7.0,8.0,9.0,10.0. (10.0, -1.0) --. 5.0 is the enumeration 10.0,9.0,8.0,7.0,6.0,5.0. (10.0, 1.0) --. 1.0 is the empty enumeration.

As --, but accepts enumerations in reverse order.

5 --- 10 is the enumeration 5,6,7,8,9,10. 10 --- 5 is the enumeration 10,9,8,7,6,5.

As ( -- ), but for characters.

Print and consume the contents of an enumeration.

This type represents the outcome of a function which has the possibility of failure. Normal results of type 'a are marked with Ok, while failure values of type 'b are marked with Error.

This is intended to be a safer alternative to functions raising exceptions to signal failure. It is safer in that the possibility of failure has to be handled before the result of that computation can be used.

For more functions related to this type, see the BatResult module.

ignore_ok (f x) ignores the result of f x if it's ok, but throws the exception contained if Error is returned.

f x |> ok unwraps the Ok result of f x and returns it, or throws the exception contained if Error is returned.

wrap f x wraps a function that would normally throw an exception on failure such that it now returns a result with either the Ok return value or the Error exception.

A lock used to synchronize internal operations.

By default, this is BatConcurrent.nolock. However, if you're using a version of Batteries compiled in threaded mode, this uses BatMutex. If you're attempting to use Batteries with another concurrency model, set the lock appropriately.