Bit::Vector::String(3)User Contributed Perl DocumentatioBit::Vector::String(3)
NAME
Bit::Vector::String - Generic string import/export for Bit::Vector
SYNOPSIS
use Bit::Vector::String;
to_Oct
$string = $vector->to_Oct();
from_Oct
$vector->from_Oct($string);
new_Oct
$vector = Bit::Vector->new_Oct($bits,$string);
String_Export
$string = $vector->String_Export($type);
String_Import
$type = $vector->String_Import($string);
new_String
$vector = Bit::Vector->new_String($bits,$string);
($vector,$type) = Bit::Vector->new_String($bits,$string);
DESCRIPTION
o "$string = $vector->to_Oct();"
Returns an octal string representing the given bit vector.
Note that this method is not particularly efficient, since it is
almost completely realized in Perl, and moreover internally operates
on a Perl list of individual octal digits which it concatenates into
the final string using ""join('', ...)"".
A benchmark reveals that this method is about 40 times slower than
the method ""to_Bin()"" (which is realized in C):
Benchmark: timing 10000 iterations of to_Bin, to_Hex, to_Oct...
to_Bin: 1 wallclock secs ( 1.09 usr + 0.00 sys = 1.09 CPU)
to_Hex: 1 wallclock secs ( 0.53 usr + 0.00 sys = 0.53 CPU)
to_Oct: 40 wallclock secs (40.16 usr + 0.05 sys = 40.21 CPU)
Note that since an octal digit is always worth three bits, the length
of the resulting string is always a multiple of three bits,
regardless of the true length (in bits) of the given bit vector.
Also note that the LEAST significant octal digit is located at the
RIGHT end of the resulting string, and the MOST significant digit at
the LEFT end.
Finally, note that this method does NOT prepend any uniquely
identifying format prefix (such as "0o") to the resulting string
(which means that the result of this method only contains valid octal
digits, i.e., [0-7]).
However, this can of course most easily be done as needed, as
follows:
$string = '0o' . $vector->to_Oct();
o "$vector->from_Oct($string);"
Allows to read in the contents of a bit vector from an octal string,
such as returned by the method ""to_Oct()"" (see above).
Note that this method is not particularly efficient, since it is
almost completely realized in Perl, and moreover chops the input
string into individual characters using ""split(//, $string)"".
Remember also that the least significant bits are always to the right
of an octal string, and the most significant bits to the left.
Therefore, the string is actually reversed internally before storing
it in the given bit vector using the method ""Chunk_List_Store()"",
which expects the least significant chunks of data at the beginning
of a list.
A benchmark reveals that this method is about 40 times slower than
the method ""from_Bin()"" (which is realized in C):
Benchmark: timing 10000 iterations of from_Bin, from_Hex, from_Oct...
from_Bin: 1 wallclock secs ( 1.13 usr + 0.00 sys = 1.13 CPU)
from_Hex: 1 wallclock secs ( 0.80 usr + 0.00 sys = 0.80 CPU)
from_Oct: 46 wallclock secs (44.95 usr + 0.00 sys = 44.95 CPU)
If the given string contains any character which is not an octal
digit (i.e., [0-7]), a fatal syntax error ensues ("unknown string
type").
Note especially that this method does NOT accept any uniquely
identifying format prefix (such as "0o") in the given string; the
presence of such a prefix will also lead to the fatal "unknown string
type" error.
If the given string contains less octal digits than are needed to
completely fill the given bit vector, the remaining (most
significant) bits all remain cleared (i.e., set to zero).
This also means that, even if the given string does not contain
enough digits to completely fill the given bit vector, the previous
contents of the bit vector are erased completely.
If the given string is longer than it needs to fill the given bit
vector, the superfluous characters are simply ignored.
This behaviour is intentional so that you may read in the string
representing one bit vector into another bit vector of different
size, i.e., as much of it as will fit.
o "$vector = Bit::Vector->new_Oct($bits,$string);"
This method is an alternative constructor which allows you to create
a new bit vector object (with "$bits" bits) and to initialize it all
in one go.
The method internally first calls the bit vector constructor method
""new()"" and then stores the given string in the newly created bit
vector using the same approach as the method ""from_Oct()""
(described above).
Note that this approach is not particularly efficient, since it is
almost completely realized in Perl, and moreover chops the input
string into individual characters using ""split(//, $string)"".
An exception will be raised if the necessary memory cannot be
allocated (see the description of the method ""new()"" in
Bit::Vector(3) for possible causes) or if the given string cannot be
converted successfully (see the description of the method
""from_Oct()"" above for details).
Note especially that this method does NOT accept any uniquely
identifying format prefix (such as "0o") in the given string and that
such a prefix will lead to a fatal "unknown string type" error.
In case of an error, the memory occupied by the new bit vector is
released again before the exception is actually thrown.
If the number of bits "$bits" given has the value ""undef"", the
method will automatically allocate a bit vector with a size (i.e.,
number of bits) of three times the length of the given string (since
every octal digit is worth three bits).
Note that this behaviour is different from that of the methods
""new_Hex()"", ""new_Bin()"", ""new_Dec()"" and ""new_Enum()"" (which
are realized in C, internally); these methods will silently assume a
value of 0 bits if ""undef"" is given (and may warn about the "Use of
uninitialized value" if warnings are enabled).
o "$string = $vector->String_Export($type);"
Returns a string representing the given bit vector in the format
specified by "$type":
1 | b | bin => binary (using "to_Bin()")
2 | o | oct => octal (using "to_Oct()")
3 | d | dec => decimal (using "to_Dec()")
4 | h | hex | x => hexadecimal (using "to_Hex()")
5 | e | enum => enumeration (using "to_Enum()")
6 | p | pack => packed binary (using "Block_Read()")
The case (lower/upper/mixed case) of "$type" is ignored.
If "$type" is omitted or ""undef"" or false ("0" or the empty
string), a hexadecimal string is returned as the default format.
If "$type" does not have any of the values described above, a fatal
"unknown string type" will occur.
Beware that in order to guarantee that the strings can be correctly
parsed and read in by the methods ""String_Import()"" and
""new_String()"" (described below), the method ""String_Export()""
provides uniquely identifying prefixes (and, in one case, a suffix)
as follows:
1 | b | bin => '0b' . $vector->to_Bin();
2 | o | oct => '0o' . $vector->to_Oct();
3 | d | dec => $vector->to_Dec(); # prefix is [+-]
4 | h | hex | x => '0x' . $vector->to_Hex();
5 | e | enum => '{' . $vector->to_Enum() . '}';
6 | p | pack => ':' . $vector->Size() .
':' . $vector->Block_Read();
This is necessary because certain strings can be valid
representations in more than one format.
All strings in binary format, i.e., which only contain "0" and "1",
are also valid number representations (of a different value, of
course) in octal, decimal and hexadecimal.
Likewise, a string in octal format is also valid in decimal and
hexadecimal, and a string in decimal format is also valid in
hexadecimal.
Moreover, if the enumeration of set bits (as returned by
""to_Enum()"") only contains one element, this element could be
mistaken for a representation of the entire bit vector (instead of
just one bit) in decimal.
Beware also that the string returned by format "6" ("packed binary")
will in general NOT BE PRINTABLE, because it will usually consist of
many unprintable characters!
o "$type = $vector->String_Import($string);"
Allows to read in the contents of a bit vector from a string which
has previously been produced by ""String_Export()"", ""to_Bin()"",
""to_Oct()"", ""to_Dec()"", ""to_Hex()"", ""to_Enum()"",
""Block_Read()"" or manually or by another program.
Beware however that the string must have the correct format;
otherwise a fatal "unknown string type" error will occur.
The correct format is the one returned by ""String_Export()"" (see
immediately above).
The method will also try to automatically recognize formats without
identifying prefix such as returned by the methods ""to_Bin()"",
""to_Oct()"", ""to_Dec()"", ""to_Hex()"" and ""to_Enum()"".
However, as explained above for the method ""String_Export()"", due
to the fact that a string may be a valid representation in more than
one format, this may lead to unwanted results.
The method will try to match the format of the given string in the
following order:
If the string consists only of [01], it will be considered to be in
binary format (although it could be in octal, decimal or hexadecimal
format or even be an enumeration with only one element as well).
If the string consists only of [0-7], it will be considered to be in
octal format (although it could be in decimal or hexadecimal format
or even be an enumeration with only one element as well).
If the string consists only of [0-9], it will be considered to be in
decimal format (although it could be in hexadecimal format or even be
an enumeration with only one element as well).
If the string consists only of [0-9A-Fa-f], it will be considered to
be in hexadecimal format.
If the string only contains numbers in decimal format, separated by
commas (",") or dashes ("-"), it is considered to be an enumeration
(a single decimal number also qualifies).
And if the string starts with ":[0-9]:", the remainder of the string
is read in with ""Block_Store()"".
To avoid misinterpretations, it is therefore recommendable to always
either use the method ""String_Export()"" or to provide some uniquely
identifying prefix (and suffix, in one case) yourself:
binary => '0b' . $string;
octal => '0o' . $string;
decimal => '+' . $string; # in case "$string"
=> '-' . $string; # has no sign yet
hexadecimal => '0x' . $string;
=> '0h' . $string;
enumeration => '{' . $string . '}';
=> '[' . $string . ']';
=> '<' . $string . '>';
=> '(' . $string . ')';
packed binary => ':' . $vector->Size() .
':' . $vector->Block_Read();
Note that case (lower/upper/mixed case) is not important and will be
ignored by this method.
Internally, the method uses the methods ""from_Bin()"",
""from_Oct()"", ""from_Dec()"", ""from_Hex()"", ""from_Enum()"" and
""Block_Store()"" for actually importing the contents of the string
into the given bit vector. See their descriptions here in this
document and in Bit::Vector(3) for any further conditions that must
be met and corresponding possible fatal error messages.
The method returns the number of the format that has been recognized:
1 => binary
2 => octal
3 => decimal
4 => hexadecimal
5 => enumeration
6 => packed binary
o "$vector = Bit::Vector->new_String($bits,$string);"
"($vector,$type) = Bit::Vector->new_String($bits,$string);"
This method is an alternative constructor which allows you to create
a new bit vector object (with "$bits" bits) and to initialize it all
in one go.
The method internally first calls the bit vector constructor method
""new()"" and then stores the given string in the newly created bit
vector using the same approach as the method ""String_Import()""
(described immediately above).
An exception will be raised if the necessary memory cannot be
allocated (see the description of the method ""new()"" in
Bit::Vector(3) for possible causes) or if the given string cannot be
converted successfully (see the description of the method
""String_Import()"" above for details).
In case of an error, the memory occupied by the new bit vector is
released again before the exception is actually thrown.
If the number of bits "$bits" given has the value ""undef"", the
method will automatically determine this value for you and allocate a
bit vector of the calculated size.
Note that this behaviour is different from that of the methods
""new_Hex()"", ""new_Bin()"", ""new_Dec()"" and ""new_Enum()"" (which
are realized in C, internally); these methods will silently assume a
value of 0 bits if ""undef"" is given (and may warn about the "Use of
uninitialized value" if warnings are enabled).
The necessary number of bits is calculated as follows:
binary => length($string);
octal => 3 * length($string);
decimal => int( length($string) * log(10) / log(2) + 1 );
hexadecimal => 4 * length($string);
enumeration => maximum of values found in $string + 1
packed binary => $string =~ /^:(\d+):/;
If called in scalar context, the method returns the newly created bit
vector object.
If called in list context, the method additionally returns the number
of the format which has been recognized, as explained above for the
method ""String_Import()"".
SEE ALSO
Bit::Vector(3), Bit::Vector::Overload(3).
VERSION
This man page documents "Bit::Vector::String" version 7.4.
AUTHOR
Steffen Beyer
mailto:STBEY AT cpan.org
http://www.engelschall.com/u/sb/download/
COPYRIGHT
Copyright (c) 2004 - 2013 by Steffen Beyer. All rights reserved.
LICENSE
This package is free software; you can redistribute it and/or modify it
under the same terms as Perl itself, i.e., under the terms of the
"Artistic License" or the "GNU General Public License".
The C library at the core of this Perl module can additionally be
redistributed and/or modified under the terms of the "GNU Library
General Public License".
Please refer to the files "Artistic.txt", "GNU_GPL.txt" and
"GNU_LGPL.txt" in this distribution for details!
DISCLAIMER
This package is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the "GNU General Public License" for more details.
perl v5.26.3 2013-09-03 Bit::Vector::String(3)