Memory-mapped I/O
Create an -like object for creating zeroed-out mmapped-memory that is not tied to a file for use in . Used by SharedArray
for creating shared memory arrays.
Examples
julia> using Mmap
julia> anon = Mmap.Anonymous();
julia> isreadable(anon)
true
julia> iswritable(anon)
true
julia> isopen(anon)
true
— Function
Create an Array
whose values are linked to a file, using memory-mapping. This provides a convenient way of working with data too large to fit in the computer’s memory.
The type is an Array{T,N}
with a bits-type element of T
and dimension N
that determines how the bytes of the array are interpreted. Note that the file must be stored in binary format, and no format conversions are possible (this is a limitation of operating systems, not Julia).
dims
is a tuple or single Integer specifying the size or length of the array.
If no type
argument is specified, the default is Vector{UInt8}
.
Optionally, you can specify an offset (in bytes) if, for example, you want to skip over a header in the file. The default value for the offset is the current stream position for an IOStream
.
The grow
keyword argument specifies whether the disk file should be grown to accommodate the requested size of array (if the total file size is < requested array size). Write privileges are required to grow the file.
The keyword argument specifies whether the resulting Array
and changes made to it will be visible to other processes mapping the same file.
For example, the following code
# Create a file for mmapping
# (you could alternatively use mmap to do this step, too)
using Mmap
A = rand(1:20, 5, 30)
s = open("/tmp/mmap.bin", "w+")
write(s, size(A,1))
write(s, size(A,2))
# Now write the data
write(s, A)
close(s)
# Test by reading it back in
s = open("/tmp/mmap.bin") # default is read-only
m = read(s, Int)
n = read(s, Int)
A2 = Mmap.mmap(s, Matrix{Int}, (m,n))
creates a m
-by-n
Matrix{Int}
, linked to the file associated with stream s
.
A more portable file would need to encode the word size – 32 bit or 64 bit – and endianness information in the header. In practice, consider encoding binary data using standard formats like HDF5 (which can be used with memory-mapping).
Create a whose values are linked to a file, using memory-mapping; it has the same purpose, works in the same way, and has the same arguments, as mmap, but the byte representation is different.
Examples
julia> using Mmap
julia> B = Mmap.mmap(io, BitArray, (25,30000));
julia> Mmap.sync!(B);
julia> close(io);
julia> io = open("mmap.bin", "r+");
julia> C = Mmap.mmap(io, BitArray, (25,30000));
julia> C[3, 4000]
true
julia> C[2, 4000]
false
julia> close(io)
This creates a 25-by-30000 BitArray
, linked to the file associated with stream io
.
Mmap.sync! — Function
Forces synchronization between the in-memory version of a memory-mapped or and the on-disk version.