Provided by: libffi-platypus-perl_2.05-1_amd64 bug

NAME

       FFI::Platypus::Type::WideString - Platypus custom type for Unicode "wide" strings

VERSION

       version 2.05

SYNOPSIS

        use FFI::Platypus 2.00;

        my $ffi = FFI::Platypus->new( api => 2, lib => [undef] );
        $ffi->load_custom_type('::WideString' => 'wstring', access => 'read' );
        $ffi->load_custom_type('::WideString' => 'wstring_w', access => 'write' );

        # call function that takes a constant wide string
        $ffi->attach( wcscmp => ['wstring', 'wstring'] => 'int' );
        my $diff = wcscmp("I ❤ perl + Platypus", "I ❤ perl + Platypus"); # returns 0

        # call a function that takes a wide string for writing
        $ffi->attach( wcscpy => ['wstring_w', 'wstring'] );
        my $buf;
        wcscpy(\$buf, "I ❤ perl + Platypus");
        print $buf, "\n";  # prints "I ❤ perl + Platypus"

        # call a function that takes a wide string for modification
        $ffi->attach( wcscat => ['wstring_w', 'wstring'] );
        my $buf;
        wcscat( [ \$buf, "I ❤ perl" ], " + Platypus");
        print $buf, "\n";  # prints "I ❤ perl + Platypus"

       On Windows use with "LPCWSTR":

        use FFI::Platypus 2.00;

        my $ffi = FFI::Platypus->new( api => 2, lib => [undef] );

        # define some custom Win32 Types
        # to get these automatically see FFI::Platypus::Lang::Win32
        $ffi->load_custom_type('::WideString' => 'LPCWSTR', access => 'read' );
        $ffi->type('opaque' => 'HWND');
        $ffi->type('uint'   => 'UINT');

        use constant MB_OK                   => 0x00000000;
        use constant MB_DEFAULT_DESKTOP_ONLY => 0x00020000;

        $ffi->attach( [MessageBoxW => 'MessageBox'] => [ 'HWND', 'LPCWSTR', 'LPCWSTR', 'UINT'] => 'int' );

        MessageBox(undef, "I ❤️ Platypus", "Confession", MB_OK|MB_DEFAULT_DESKTOP_ONLY);

DESCRIPTION

       This custom type plugin for FFI::Platypus provides support for the native "wide" string
       type on your platform, if it is available.

       Wide strings are made of up wide characters ("wchar_t", also known as "WCHAR" on Windows)
       and have enough bits to represent character sets that require larger than the traditional
       one byte "char".

       These strings are most commonly used on Windows where they are referred to as "LPWSTR" and
       "LPCWSTR" (The former for read/write buffers and the latter for const read-only strings),
       where they are encoded as "UTF-16LE".

       They are also supported by libc on many modern Unix systems where they are usually
       "UTF-32" of the native byte-order of the system.  APIs on Unix systems more commonly use
       UTF-8 which provides some compatibility with ASCII, but you may occasionally find APIs
       that talk in wide strings.  (libarchive, for example, can work in both).

       This plugin will detect the native wide string format for you and transparently convert
       Perl strings, which are typically encoded internally as UTF-8.  If for some reason it
       cannot detect the correct encoding, or if your platform is currently supported, an
       exception will be thrown (please open a ticket if this is the case).  It can be used
       either for read/write buffers, for const read-only strings, and for return values.  It
       supports these options:

       Options:

       access
           Either "read" or "write" depending on if you are using a read/write buffer or a const
           read-only string.

       size
           For read/write buffer, the size of the buffer to create, if not provided by the
           caller.

   read-only
       Read-only strings are the easiest of all, are converted to the native wide string format
       in a buffer and are freed after that function call completes.

        $ffi->load_custom_type('::WideString' => 'wstring' );
        $ffi->function( wprintf => [ 'wstring' ] => [ 'wstring' ] => 'int' )
             ->call("I %s perl + Platypus", "❤");

       This is the mode that you want to use when you are calling a function that takes a "const
       wchar_t*" or a "LPCWSTR".

   return value
       For return values the "access" and "size" options are ignored.  The string is simply
       copied into a Perl native string.

        $ffi->load_custom_type('::WideString' => 'wstring' );
        # see note below in CAVEATS about wcsdup
        my $str = $ffi->function( wcsdup => [ 'wstring' ] => 'wstring' )
                      ->call("I ❤ perl + Platypus");

       This is the mode that you want to use when you are calling a function that returns a
       "const wchar_t*", "wchar_t", "LPWSTR" or "LPCWSTR".

   read/write
       Read/write strings can be passed in one of two ways.  Which you choose depends on if you
       want to initialize the read/write buffer or not.

       default buffer size
           The simplest way is to fallback on the default buffer size, which can be specified
           using the "size" option when creating the custom type.

            my $ffi = FFI::Platypus->new( api => 2, lib => [undef] );
            $ffi->load_custom_type('::WideString' => 'wstring',   access => 'read' );
            $ffi->load_custom_type('::WideString' => 'wstring_w', access => 'write', size => 512 );

            $ffi->attach( wcscpy => ['wstring_w', 'wstring'] );
            my $buf;
            wcscpy(\$buf, "I ❤ perl + Platypus");
            print $buf, "\n";  # prints "I ❤ perl + Platypus"

           Discussion: This is the most sensical approach when the exact size of the buffer is
           known for all usages of the string type.  It can also be sensical if the buffer size
           is larger than any possible output, though care should be taken since this may be hard
           to determine reliably.

           The default size if none is specified when creating the custom type is 2048, which is
           probably large enough for many uses, but also probably wastes memory for many of them.

       allocate your buffer of a specific size
           The safest and most memory efficient method is of course to allocate exactly the
           amount of memory that you need.

            my $ffi = FFI::Platypus->new( api => 2, lib => [undef] );
            $ffi->load_custom_type('::WideString' => 'wstring',   access => 'read'  );
            $ffi->load_custom_type('::WideString' => 'wstring_w', access => 'write' );

            $ffi->attach( wcscpy => ['wstring_w', 'wstring'] );
            my $width = $ffi->sizeof('wchar_t');
            my $buf = "\0" x ( (length ("I ❤ perl + Platypus") + 1)*$width);
            wcscpy(\$buf, "I ❤ perl + Platypus");
            print $buf, "\n";  # prints "I ❤ perl + Platypus"

           Discussion: By assigning $buf to a string of null characters the length of the source
           string, plus one (for the null at the end) and then multiplying that by the size of
           "wchar_t", you get the exact number of bytes needed for the destination buffer.

           Note that although we pass in a reference to a buffer, what comes back is converted to
           a Perl string, which will be internally UTF-8, not stored at the original buffer
           location.  This is slightly awkward, but what you need most of the time.

       initialize the read/write buffer
           Some functions don't expect empty null padded buffers though, in this case you will
           want to initialize the buffer.

            my $ffi = FFI::Platypus->new( api => 2, lib => [undef] );
            $ffi->load_custom_type('::WideString' => 'wstring',   access => 'read'  );
            $ffi->load_custom_type('::WideString' => 'wstring_w', access => 'write' );

            $ffi->attach( wcscat => ['wstring_w', 'wstring'] );
            my $buf;
            wcscat( [ \$buf, "I ❤ perl" ], " + Platypus");
            print $buf, "\n";  # prints "I ❤ perl + Platypus"

           Discussion: To initialize we pass in an array reference instead of a scalar reference.
           The first element is a scalar reference to the buffer (which can be pre-allocated or
           not; if it is not allocated then it will be allocated to the default size for the
           type).  The second argument is what the buffer should be initialized to before the
           underlying C function is called.  The Perl string is encoded into wide string format
           before being used to initialize the buffer.

           As before a reference to the translated string is returned, and the buffer that was
           used to pass in is freed.

       allocate memory using "malloc" or "wcsdup" etc.
           You can also allocate memory using "malloc" or "wcsdup" to return an opaque type and
           manipulate it using the libc "wcs*" functions.  It will still probably be useful to
           use this plugin to cast the opaque back to a Perl string.  The CAVEATS section below
           includes several examples.

       This is the mode that you want to use when you are calling a function that takes a
       <wchar_t*> or a "LPWSTR".

CAVEATS

       As with the Platypus built in "string" type, return values are copied into a Perl scalar.
       This is usually what you want anyway, but some APIs expect the caller to take
       responsibility for freeing the pointer to the wide string that it returns.  For example,
       "wcsdup" works in this way.  The workaround is to return an opaque pointer, cast it from a
       wide string and free the pointer.

        use FFI::Platypus::Memory qw( free );
        $ffi->load_custom_type('::WideString' => 'wstring' );
        my $ptr = $ffi->function( wcsdup => [ 'wstring' ] => 'opaque' )
                      ->call("I ❤ perl + Platypus");
        my $str = $ffi->cast('opaque', 'wstring', $ptr);
        free $ptr;

       Because of the order in which objects are freed you cannot return a wide string if it is
       also a wide string argument to a function.  For example "wcscpy" may crash if you specify
       the return value as a wide string:

        # wchar_t *wcscpy(wchar_t *dest, const wchar_t *src);
        $ffi->attach( wcscpy => [ 'wstring_w', 'wstring' ] => 'wstring' ); # no
        my $str;
        wcscpy( \$str, "I ❤ perl + Platypus");  # may crash on memory error

       This is because the order in which things are done here are 1. $str is allocated 2. $str
       is re-encoded as utf and the old buffer is freed 3. the return value is computed based on
       the $str buffer that was freed.

       If you look at "wcscpy" though you don't actually need the return value.  To make this
       code work, you can just ignore the return value:

        $ffi->attach( wcscpy => [ 'wstring_w', 'wstring' ] => 'void' ); # yes
        my $str;
        wcscpy( \$str, "I ❤ perl + Platypus"); # good!

       On the other hand you do care about the return value from "wcschr", which returns a
       pointer to the first occurrence of a character in an argument string:

        # wchar_t *wcschr(const wchar_t *wcs, wchar_t wc);
        $ffi->attach( wcschr => [ 'wstring', 'wchar_t' ] => 'wstring' ); # no
        # this may crash on memory error or return the wrong value
        my $str = wcschr("I ❤ perl + Platypus", ord("❤"));

       Instead you need to work with pointers and casts to use this function:

        use FFI::Platypus 2.00;
        use FFI::Platypus::Memory qw( free );

        my $ffi = FFI::Platypus->new( api => 2, lib => [undef] );

        $ffi->attach( wcsdup => ['wstring'] => 'opaque' );
        $ffi->attach( strchr => [ opaque', 'wchar_t' ] => 'wstring' );

        # create a wcs string in memory using wcsdup
        my $haystack = wcsdup("I ❤ perl + Platypus");
        # find the heart and return as a wide string
        my $needle = strchr($haystack, ord("❤"));
        # safe to free the pointer to the larger string now
        free $haystack;

SEE ALSO

       FFI::Platypus
           Core Platypus documentation.

       FFI::Platypus::Type
           Includes documentation on handling "normal" 8 bit C strings among others.

       FFI::Platypus::Lang::Win32
           Documentation for using Platypus with "LPWSTR" and "LPCWSTR" types on Microsoft
           Windows.  These types are just aliases for the standard C wide strings.

AUTHOR

       Author: Graham Ollis <plicease@cpan.org>

       Contributors:

       Bakkiaraj Murugesan (bakkiaraj)

       Dylan Cali (calid)

       pipcet

       Zaki Mughal (zmughal)

       Fitz Elliott (felliott)

       Vickenty Fesunov (vyf)

       Gregor Herrmann (gregoa)

       Shlomi Fish (shlomif)

       Damyan Ivanov

       Ilya Pavlov (Ilya33)

       Petr Písař (ppisar)

       Mohammad S Anwar (MANWAR)

       Håkon Hægland (hakonhagland, HAKONH)

       Meredith (merrilymeredith, MHOWARD)

       Diab Jerius (DJERIUS)

       Eric Brine (IKEGAMI)

       szTheory

       José Joaquín Atria (JJATRIA)

       Pete Houston (openstrike, HOUSTON)

COPYRIGHT AND LICENSE

       This software is copyright (c) 2015-2022 by Graham Ollis.

       This is free software; you can redistribute it and/or modify it under the same terms as
       the Perl 5 programming language system itself.