concat ?sep list returns the concatenation of list with sep in between each.
Checking
val check_args :
loc:Base.string ->pos:Base.int ->len:Base.int ->t->Base.unit
check_args ~loc ~pos ~len bstr checks the position and length arguments pos and len for bigstrings bstr.
raises
Invalid_argument if these arguments are illegal for the given bigstring using loc to indicate the calling context.
val get_opt_len : t->pos:Base.int ->Base.int Base.option->Base.int
get_opt_len bstr ~pos opt_len
returns
the length of a subbigstring in bstr starting at position pos and given optional length opt_len. This function does not check the validity of its arguments. Use check_args for that purpose.
val memset : t->pos:Base.int ->len:Base.int ->Base.char ->Base.unit
memset t ~pos ~len c fills t with c within the range [pos, pos + len)
Memcmp
val memcmp :
t->pos1:Base.int ->t->pos2:Base.int ->len:Base.int ->Base.int
memcmp t1 ~pos1 t2 ~pos2 ~len is like compare t1 t2 except performs the comparison on the subregions of t1 and t2 defined by pos1, pos2, and len
Search
val find :
?pos:Base.int ->?len:Base.int ->Base.char ->t->Base.int Base.option
find ?pos ?len char t returns Some i for the smallest i >= pos such that t.{i} = char, or None if there is no such i.
parameterpos
default = 0
parameterlen
default = length bstr - pos
val unsafe_find : t->Base.char ->pos:Base.int ->len:Base.int ->Base.int
Same as find, but does no bounds checking, and returns a negative value instead of None if char is not found.
Accessors for parsing binary values, analogous to binary_packing
These are in Bigstring rather than a separate module because:
1) Existing binary_packing requires copies and does not work with bigstrings 2) The accessors rely on the implementation of bigstring, and hence should change should the implementation of bigstring move away from Bigarray. 3) Bigstring already has some external C functions, so it didn't require many changes to the OMakefile ^_^.
In a departure from Binary_packing, the naming conventions are chosen to be close to C99 stdint types, as it's a more standard description and it is somewhat useful in making compact macros for the implementations. The accessor names contain endian-ness to allow for branch-free implementations
val set_uint32_le : t->pos:Base.int ->Base.int ->Base.unit
val set_uint32_be : t->pos:Base.int ->Base.int ->Base.unit
val unsafe_get_uint32_le : t->pos:Base.int ->Base.int
val unsafe_get_uint32_be : t->pos:Base.int ->Base.int
val unsafe_set_uint32_le : t->pos:Base.int ->Base.int ->Base.unit
val unsafe_set_uint32_be : t->pos:Base.int ->Base.int ->Base.unit
Similar to the usage in binary_packing, the below methods are treating the value being read (or written), as an ocaml immediate integer, as such it is actually 63 bits. If the user is confident that the range of values used in practice will not require 64-bit precision (i.e. Less than Max_Long), then we can avoid allocation and use an immediate. If the user is wrong, an exception will be thrown (for get).
default = 256 M in OCaml <= 3.12, 1 G otherwise. As the total allocation of calls to create approach max_mem_waiting_gc, the pressure in the garbage collector to be more agressive will increase.
returns
a new bigstring having length. Content is undefined.
val sub_shared : ?pos:Base.Int.t ->?len:Base.Int.t ->t->t
sub_shared ?pos ?len bstr
returns
the sub-bigstring in bstr that starts at position pos and has length len. The sub-bigstring shares the same memory region, i.e. modifying it will modify the original bigstring. Holding on to the sub-bigstring will also keep the (usually bigger) original one around.
parameterpos
default = 0
parameterlen
default = Bigstring.length bstr - pos
Reading/writing bin-prot
These functions write the "size-prefixed" bin-prot format that is used by, e.g., async's Writer.write_bin_prot, Reader.read_bin_prot and Unpack_buffer.Unpack_one.create_bin_prot.
val write_bin_prot :
t->?pos:Base.Int.t ->'aBin_prot.Type_class.writer->'a->Base.Int.t
write_bin_prot t writer a writes a to t starting at pos, and returns the index in t immediately after the last byte written. It raises if pos < 0 or if a doesn't fit in t.
val read_bin_prot :
t->?pos:Base.Int.t ->?len:Base.Int.t ->'aBin_prot.Type_class.reader->('a * Base.Int.t)Core_kernel.Or_error.t
The read_bin_prot* functions read from the region of t starting at pos of length len. They return the index in t immediately after the last byte read. They raise if pos and len don't describe a region of t.
val read_bin_prot_verbose_errors :
t->?pos:Base.Int.t ->?len:Base.Int.t ->'aBin_prot.Type_class.reader->[ `Invalid_data of Core_kernel.Error.t| `Not_enough_data| `Ok of 'a * Base.Int.t ]
unsafe_destroy bstr destroys the bigstring by deallocating its associated data or, if memory-mapped, unmapping the corresponding file, and setting all dimensions to zero. This effectively frees the associated memory or address-space resources instantaneously. This feature helps working around a bug in the current OCaml runtime, which does not correctly estimate how aggressively to reclaim such resources.
This operation is safe unless you have passed the bigstring to another thread that is performing operations on it at the same time. Access to the bigstring after this operation will yield array bounds exceptions.
raisesFailure
if the bigstring has already been deallocated (or deemed "external", which is treated equivalently), or if it has proxies, i.e. other bigstrings referring to the same data.
val unsafe_destroy_and_resize : t->len:Base.Int.t ->t
unsafe_destroy_and_resize bstr ~len reallocates the memory backing bstr and returns a new bigstring that starts at position 0 and has length len. If len is greater than length bstr then the newly allocated memory will not be initialized.
Similar to unsafe_destroy, this operation is safe unless you have passed the bigstring to another thread that is performing operations on it at the same time. Access to bstr after this operation will yield array bounds exceptions.
raisesFailure
if the bigstring has already been deallocated (or deemed "external", which is treated equivalently), if it is backed by a memory map, or if it has proxies, i.e. other bigstrings referring to the same data.
val get_tail_padded_fixed_string :
padding:Base.Char.t ->t->pos:Base.Int.t ->len:Base.Int.t ->Base.Unit.t ->Base.String.t
Similar to Binary_packing.unpack_tail_padded_fixed_string and .pack_tail_padded_fixed_string.
val set_tail_padded_fixed_string :
padding:Base.Char.t ->t->pos:Base.Int.t ->len:Base.Int.t ->Base.String.t ->Base.Unit.t
val get_head_padded_fixed_string :
padding:Base.Char.t ->t->pos:Base.Int.t ->len:Base.Int.t ->Base.Unit.t ->Base.String.t
val set_head_padded_fixed_string :
padding:Base.Char.t ->t->pos:Base.Int.t ->len:Base.Int.t ->Base.String.t ->Base.Unit.t
In IOError (n, exn), n is the number of bytes successfully read/written before the error and exn is the exception that occurred (e.g., Unix_error, End_of_file)
Input functions
val read : ?min_len:int ->Unix.file_descr ->?pos:int ->?len:int ->t-> int
read ?min_len fd ?pos ?len bstr reads at least min_len (must be >= 0) and at most len (must be >= min_len) bytes from file descriptor fd, and writes them to bigstring bstr starting at position pos. Returns the number of bytes actually read.
read returns zero only if len = 0. If len > 0 and there's nothing left to read, read raises to indicate EOF even if min_len = 0.
NOTE: Even if len is zero, there may still be errors when reading from the descriptor!
Raises Invalid_argument if the designated ranges are out of bounds. Raises IOError in the case of input errors, or on EOF if the minimum length could not be read.
val really_read : Unix.file_descr ->?pos:int ->?len:int ->t-> unit
really_read fd ?pos ?len bstr reads len bytes from file descriptor fd, and writes them to bigstring bstr starting at position pos.
Raises Invalid_argument if the designated range is out of bounds. Raises IOError in the case of input errors, or on EOF.
val really_recv : Unix.file_descr ->?pos:int ->?len:int ->t-> unit
really_recv sock ?pos ?len bstr receives len bytes from socket sock, and writes them to bigstring bstr starting at position pos. If len is zero, the function returns immediately without performing the underlying system call.
Raises Invalid_argument if the designated range is out of bounds. Raises IOError in the case of input errors, or on EOF.
val recvfrom_assume_fd_is_nonblocking :
Unix.file_descr ->?pos:int ->?len:int ->t->
int * Unix.sockaddr
recvfrom_assume_fd_is_nonblocking sock ?pos ?len bstr reads up to len bytes into bigstring bstr starting at position pos from socket sock without yielding to other OCaml-threads.
Returns the number of bytes actually read and the socket address of the client.
Raises Unix_error in the case of input errors. Raises Invalid_argument if the designated range is out of bounds.
val read_assume_fd_is_nonblocking :
Unix.file_descr ->?pos:int ->?len:int ->t->
int
read_assume_fd_is_nonblocking fd ?pos ?len bstr reads up to len bytes into bigstring bstr starting at position pos from file descriptor fd without yielding to other OCaml-threads. Returns the number of bytes actually read.
Raises Invalid_argument if the designated range is out of bounds.
val pread_assume_fd_is_nonblocking :
Unix.file_descr ->offset:int ->?pos:int ->?len:int ->t->
int
pread_assume_fd_is_nonblocking fd ~offset ?pos ?len bstr reads up to len bytes from file descriptor fd at offset offset, and writes them to bigstring bstr starting at position pos. The fd must be capable of seeking, and the current file offset used for a regular read() is unchanged. Please see man pread for more information. Returns the number of bytes actually read.
Raises Invalid_argument if the designated range is out of bounds. Raises Unix_error in the case of input errors.
val input :
?min_len:int ->Core__.Import.In_channel.t ->?pos:int ->?len:int ->t->
int
input ?min_len ic ?pos ?len bstr tries to read len bytes (guarantees to read at least min_len bytes, which must be >= 0 and <= len), if possible, before returning, from input channel ic, and writes them to bigstring bstr starting at position pos. Returns the number of bytes actually read.
NOTE: Even if len is zero, there may still be errors when reading from the descriptor, which will be done if the internal buffer is empty!
NOTE: If at least len characters are available in the input channel buffer and if len is not zero, data will only be fetched from the channel buffer. Otherwise data will be read until at least min_len characters are available.
Raises Invalid_argument if the designated range is out of bounds. Raises IOError in the case of input errors, or on premature EOF.
val really_input :
Core__.Import.In_channel.t ->?pos:int ->?len:int ->t->
unit
really_input ic ?pos ?len bstr reads exactly len bytes from input channel ic, and writes them to bigstring bstr starting at position pos.
Raises Invalid_argument if the designated range is out of bounds. Raises IOError in the case of input errors, or on premature EOF.
Output functions
val really_write : Unix.file_descr ->?pos:int ->?len:int ->t-> unit
really_write fd ?pos ?len bstr writes len bytes in bigstring bstr starting at position pos to file descriptor fd.
Raises Invalid_argument if the designated range is out of bounds. Raises IOError in the case of output errors.
val really_send_no_sigpipe :
(Unix.file_descr ->?pos:int ->?len:int ->t-> unit)Core_kernel.Or_error.t
really_send_no_sigpipe sock ?pos ?len bstr sends len bytes in bigstring bstr starting at position pos to socket sock without blocking and ignoring SIGPIPE.
Raises Invalid_argument if the designated range is out of bounds. Raises IOError in the case of output errors.
really_send_no_sigpipe is not implemented on some platforms, in which case it returns an Error value indicating that it is unimplemented.
val send_nonblocking_no_sigpipe :
(Unix.file_descr ->?pos:int ->?len:int ->t-> int)Core_kernel.Or_error.t
send_nonblocking_no_sigpipe sock ?pos ?len bstr tries to send len bytes in bigstring bstr starting at position pos to socket sock. Returns bytes_written.
Raises Invalid_argument if the designated range is out of bounds.
val sendto_nonblocking_no_sigpipe :
(Unix.file_descr ->?pos:int ->?len:int ->t->Unix.sockaddr ->
int)Core_kernel.Or_error.t
sendto_nonblocking_no_sigpipe sock ?pos ?len bstr sockaddr tries to send len bytes in bigstring bstr starting at position pos to socket sock using address addr. Returns bytes_written.
Raises Invalid_argument if the designated range is out of bounds.
val write : Unix.file_descr ->?pos:int ->?len:int ->t-> int
write fd ?pos ?len bstr writes len bytes in bigstring bstr starting at position pos to file descriptor fd. Returns the number of bytes actually written.
Raises Invalid_argument if the designated range is out of bounds. Raises Unix_error in the case of output errors.
val pwrite_assume_fd_is_nonblocking :
Unix.file_descr ->offset:int ->?pos:int ->?len:int ->t->
int
pwrite_assume_fd_is_nonblocking fd ~offset ?pos ?len bstr writes up to len bytes of bigstring bstr starting at position pos to file descriptor fd at position offset. The fd must be capable of seeking, and the current file offset used for non-positional read()/write() calls is unchanged. Returns the number of bytes written.
Raises Invalid_argument if the designated range is out of bounds. Raises Unix_error in the case of output errors.
val write_assume_fd_is_nonblocking :
Unix.file_descr ->?pos:int ->?len:int ->t->
int
write_assume_fd_is_nonblocking fd ?pos ?len bstr writes len bytes in bigstring bstr starting at position pos to file descriptor fd without yielding to other OCaml-threads. Returns the number of bytes actually written.
Raises Invalid_argument if the designated range is out of bounds. Raises Unix_error in the case of output errors.
val writev :
Unix.file_descr ->?count:int ->tCore__.Core_unix.IOVec.t array->
int
writev fd ?count iovecs writes countiovecs of bigstrings to file descriptor fd. Returns the number of bytes written.
Raises Invalid_argument if count is out of range. Raises Unix_error in the case of output errors.
val writev_assume_fd_is_nonblocking :
Unix.file_descr ->?count:int ->tCore__.Core_unix.IOVec.t array->
int
writev_assume_fd_is_nonblocking fd ?count iovecs writes countiovecs of bigstrings to file descriptor fd without yielding to other OCaml-threads. Returns the number of bytes actually written.
Raises Invalid_argument if the designated range is out of bounds. Raises Unix_error in the case of output errors.
val recvmmsg_assume_fd_is_nonblocking :
(Unix.file_descr ->?count:int ->?srcs:Unix.sockaddr array->tCore__.Core_unix.IOVec.t array->lens:int array->
int)Core_kernel.Or_error.t
recvmmsg_assume_fd_is_nonblocking fd iovecs ~count ~lens receives up to count messages into iovecs from file descriptor fd without yielding to other OCaml threads. If ~count is supplied, it must be that 0 <= count <= Array.length
iovecs. If ~srcs is supplied, saves the source addresses for corresponding received messages there. If supplied, Array.length srcs must be >= count. Saves the lengths of the received messages in lens. It is required that Array.length lens >=
count.
If an IOVec isn't long enough for its corresponding message, excess bytes may be discarded, depending on the type of socket the message is received from. While the recvmmsg system call itself does return details of such truncation, etc., those details are not (yet) passed through this interface.
See "recvmmsg(2)" re. the underlying system call.
Returns the number of messages actually read, or a negative number to indicate EWOULDBLOCK or EAGAIN. This is a compromise to mitigate the exception overhead for what ends up being a very common result with our use of recvmmsg.
Raises Invalid_argument if the designated range is out of bounds. Raises Unix_error in the case of output errors.
val sendmsg_nonblocking_no_sigpipe :
(Unix.file_descr ->?count:int ->tCore__.Core_unix.IOVec.t array->int option)Core_kernel.Or_error.t
sendmsg_nonblocking_no_sigpipe sock ?count iovecs sends countiovecs of bigstrings to socket sock. Returns Some bytes_written, or None if the operation would have blocked. This system call will not cause signal SIGPIPE if an attempt is made to write to a socket that was closed by the other side.
Raises Invalid_argument if count is out of range. Raises Unix_error in the case of output errors.
val output :
?min_len:int ->Core__.Import.Out_channel.t ->?pos:int ->?len:int ->t->
int
output ?min_len oc ?pos ?len bstr tries to output len bytes (guarantees to write at least min_len bytes, which must be >= 0), if possible, before returning, from bigstring bstr starting at position pos to output channel oc. Returns the number of bytes actually written.
NOTE: You may need to flush oc to make sure that the data is actually sent.
NOTE: If len characters fit into the channel buffer completely, they will be buffered. Otherwise writes will be attempted until at least min_len characters have been sent.
Raises Invalid_argument if the designated range is out of bounds.
Raises IOError in the case of output errors. The IOError argument counting the number of successful bytes includes those that have been transferred to the channel buffer before the error.
val really_output :
Core__.Import.Out_channel.t ->?pos:int ->?len:int ->t->
unit
really_output oc ?pos ?len bstr outputs exactly len bytes from bigstring bstr starting at position pos to output channel oc.
Raises Invalid_argument if the designated range is out of bounds.
Raises IOError in the case of output errors. The IOError argument counting the number of successful bytes includes those that have been transferred to the channel buffer before the error.
Unsafe functions
val unsafe_read_assume_fd_is_nonblocking :
Unix.file_descr ->pos:int ->len:int ->t->
int
unsafe_read_assume_fd_is_nonblocking fd ~pos ~len bstr is similar to Bigstring.read_assume_fd_is_nonblocking, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_write : Unix.file_descr ->pos:int ->len:int ->t-> int
unsafe_write fd ~pos ~len bstr is similar to Bigstring.write, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_write_assume_fd_is_nonblocking :
Unix.file_descr ->pos:int ->len:int ->t->
int
unsafe_write_assume_fd_is_nonblocking fd ~pos ~len bstr is similar to Bigstring.write_assume_fd_is_nonblocking, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_read :
min_len:int ->Unix.file_descr ->pos:int ->len:int ->t->
int
unsafe_read ~min_len fd ~pos ~len bstr is similar to Bigstring.read, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_really_recv : Unix.file_descr ->pos:int ->len:int ->t-> unit
unsafe_really_recv sock ~pos ~len bstr is similar to Bigstring.really_recv, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_really_write : Unix.file_descr ->pos:int ->len:int ->t-> unit
unsafe_really_write fd ~pos ~len bstr is similar to Bigstring.write, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_really_send_no_sigpipe :
(Unix.file_descr ->pos:int ->len:int ->t-> unit)Core_kernel.Or_error.t
unsafe_really_send_no_sigpipe sock ~pos ~len bstr is similar to Bigstring.send, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_send_nonblocking_no_sigpipe :
(Unix.file_descr ->pos:int ->len:int ->t-> int)Core_kernel.Or_error.t
unsafe_send_nonblocking_no_sigpipe sock ~pos ~len bstr is similar to Bigstring.send_nonblocking_no_sigpipe, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_writev :
Unix.file_descr ->tCore__.Core_unix.IOVec.t array->int ->
int
unsafe_writev fd iovecs count is similar to Bigstring.writev, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_sendmsg_nonblocking_no_sigpipe :
(Unix.file_descr ->tCore__.Core_unix.IOVec.t array->int ->int option)Core_kernel.Or_error.t
unsafe_sendmsg_nonblocking_no_sigpipe fd iovecs count is similar to Bigstring.sendmsg_nonblocking_no_sigpipe, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_input :
min_len:int ->Core__.Import.In_channel.t ->pos:int ->len:int ->t->
int
unsafe_input ~min_len ic ~pos ~len bstr is similar to Bigstring.input, but does not perform any bounds checks. Will crash on bounds errors!
val unsafe_output :
min_len:int ->Core__.Import.Out_channel.t ->pos:int ->len:int ->t->
int
unsafe_output ~min_len oc ~pos ~len bstr is similar to Bigstring.output, but does not perform any bounds checks. Will crash on bounds errors!
Memory mapping
val map_file : shared:bool ->Unix.file_descr ->int ->t
map_file shared fd n memory-maps n characters of the data associated with descriptor fd to a bigstring. Iff shared is true, all changes to the bigstring will be reflected in the file.
Users must keep in mind that operations on the resulting bigstring may result in disk operations which block the runtime. This is true for pure OCaml operations (such as t.{1} <- 1), and for calls to blit. While some I/O operations may release the OCaml lock, users should not expect this to be done for all operations on a bigstring returned from map_file.