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GeoTypes 0.6.0
GeoTypes is a Python library that implements both the OpenGIS/PostGIS and standard PostgreSQL geometry types. more>>
GeoTypes is a Python library that implements both the OpenGIS/PostGIS and standard PostgreSQL geometry types. GeoTypes integrates with the psycopg Python/PostgreSQL interface.
It provides implementations of all of the OpenGIS/PostGIS classes, except (x,y,m) and (x,y,z,m). It currently supports the EWKB, HEXEWKB, WKB, and WKT formats.
Enhancements:
- Point and Box constructor now accept several argument types
- SRID optional in WKTParser.parseGeometry
- minor typo corrections
- added joinBoxes()
<<lessIt provides implementations of all of the OpenGIS/PostGIS classes, except (x,y,m) and (x,y,z,m). It currently supports the EWKB, HEXEWKB, WKB, and WKT formats.
Enhancements:
- Point and Box constructor now accept several argument types
- SRID optional in WKTParser.parseGeometry
- minor typo corrections
- added joinBoxes()
Download (0.042MB)
Added: 2006-06-14 License: LGPL (GNU Lesser General Public License) Price:
1231 downloads
NullableTypes 1.2
NullableTypes for .NET are a very reliable and efficient version of built-in value-types that can be Null. more>>
NullableTypes for .NET are a very reliable and efficient version of built-in value-types that can be Null. NullableTypes pass more than 800 differents test cases and have close-to-optimal efficiency as built-in value-types. They may be used every time you need to store a Null value in a .NET built-in value-type.
Types implemented by NullableTypes are: NullableBoolean, NullableByte, NullableInt16, NullableInt32, NullableInt64, NullableSingle, NullableDouble, NullableDecimal, NullableString and NullableDateTime.
Helper functions provide seamless integration with Windows and ASP.NET user controls and with ADO.NET.
NullableTypes will let you write code like this:
public sealed class Order{
public int OrderID {get {/*...*/}}
public int CustomerID {get {/*...*/}}
public NullableDateTime RequestedDeliveryDate {get {/*...*/}}
// remaining members elided for clarity
}
where RequestedDeliveryDate can be either NullableDateTime.Null or a valid DateTime value.
The property RequestedDeliveryDate.IsNull tests if the date is Null, and when it is not Null the property RequestedDeliveryDate.Value returns a valid DateTime value.
<<lessTypes implemented by NullableTypes are: NullableBoolean, NullableByte, NullableInt16, NullableInt32, NullableInt64, NullableSingle, NullableDouble, NullableDecimal, NullableString and NullableDateTime.
Helper functions provide seamless integration with Windows and ASP.NET user controls and with ADO.NET.
NullableTypes will let you write code like this:
public sealed class Order{
public int OrderID {get {/*...*/}}
public int CustomerID {get {/*...*/}}
public NullableDateTime RequestedDeliveryDate {get {/*...*/}}
// remaining members elided for clarity
}
where RequestedDeliveryDate can be either NullableDateTime.Null or a valid DateTime value.
The property RequestedDeliveryDate.IsNull tests if the date is Null, and when it is not Null the property RequestedDeliveryDate.Value returns a valid DateTime value.
Download (0.76MB)
Added: 2006-09-06 License: MIT/X Consortium License Price:
1143 downloads
Archetypes 1.3.6 RC1
Archetypes is a framework for developing new content types in Plone. more>>
Archetypes project is a framework for developing new content types in Plone.
The power of Archetypes is first in automatically generating forms, second in providing a library of stock field types, form widgets, and field validators, third in easily integrating custom fields, widgets, and validators, and fourth in automating transformations of rich content.
Enhancements:
- Major bugfixes
<<lessThe power of Archetypes is first in automatically generating forms, second in providing a library of stock field types, form widgets, and field validators, third in easily integrating custom fields, widgets, and validators, and fourth in automating transformations of rich content.
Enhancements:
- Major bugfixes
Download (0.82MB)
Added: 2005-12-30 License: BSD License Price:
1395 downloads
C++ Portable Types Library (PTypes) 2.1.1
C++ Portable Types Library (PTypes) is a simple alternative to the STL with multithreading and networking. more>>
C++ Portable Types Library (PTypes) is a simple alternative to the STL that includes multithreading and networking. C++ Portable Types Library (PTypes) defines dynamic strings, variants, character sets, lists and other basic data types along with portable thread and synchronization objects, IP sockets and named pipes. Its main `target audience is developers of complex network daemons, robots or non-visual client/server applications of any kind.
PTypes defines simple and intuitive interfaces and differs from the STL in fairly moderate use of templates. The library is portable across many modern operating systems (currently FreeBSD, Linux, SunOS, Mac OS X and Windows). All platform-dependent issues are hidden inside. A simple web server called wshare is included in the package to demonstrate the full power of the library.
And finally, PTypes is open and free.
Main features:
- Threads and synchronization primitives solve the vital problem of diversity of the threading APIs on different platforms. The library also offers message queues and job queues as additional methods of thread synchronization and maintenance.
- IP socket classes and utilities provide complete IP-based framework for both client-side and server-side programming. Combined with PTypes multithreading, these classes can be used for designing complex non-visual applications, such like network daemons or web robots.
- Dynamic strings, variants, character sets, date/time type and various kinds of dynamic and associative arrays: Delphi programmers will find them very similar to the ones in their favorite language. The collection of these basic data types may be useful, among other things, for building compilers and interpreters for higher-level languages.
- Streaming interfaces provide buffered I/O with simple and powerful text parsing methods. A strictly defined syntax for a given text format or a formal language can be represented by calls to PTypes token extraction methods. The unified streaming interface is applicable to files, named pipes and network sockets.
- Special thread class with enhanced functionality called unit. Units have their own main() and input/output plugs; they can be connected to each other within one application to form pipes, like processes in the UNIX shell.
- Finally, everything above is portable: all platform-dependent details are hidden inside.
Enhancements:
- Added support for HP-UX
- Compilation problems solved on *BSD systems (64-bit seek issue)
- Several MacOS X compilation problems solved (socklen_t, libtool)
- MSVC project files are now in the new VC7+ format (.sln, .vcproj)
- Dropped support for BSDi, CygWin and also the Borland C++ compiler.
<<lessPTypes defines simple and intuitive interfaces and differs from the STL in fairly moderate use of templates. The library is portable across many modern operating systems (currently FreeBSD, Linux, SunOS, Mac OS X and Windows). All platform-dependent issues are hidden inside. A simple web server called wshare is included in the package to demonstrate the full power of the library.
And finally, PTypes is open and free.
Main features:
- Threads and synchronization primitives solve the vital problem of diversity of the threading APIs on different platforms. The library also offers message queues and job queues as additional methods of thread synchronization and maintenance.
- IP socket classes and utilities provide complete IP-based framework for both client-side and server-side programming. Combined with PTypes multithreading, these classes can be used for designing complex non-visual applications, such like network daemons or web robots.
- Dynamic strings, variants, character sets, date/time type and various kinds of dynamic and associative arrays: Delphi programmers will find them very similar to the ones in their favorite language. The collection of these basic data types may be useful, among other things, for building compilers and interpreters for higher-level languages.
- Streaming interfaces provide buffered I/O with simple and powerful text parsing methods. A strictly defined syntax for a given text format or a formal language can be represented by calls to PTypes token extraction methods. The unified streaming interface is applicable to files, named pipes and network sockets.
- Special thread class with enhanced functionality called unit. Units have their own main() and input/output plugs; they can be connected to each other within one application to form pipes, like processes in the UNIX shell.
- Finally, everything above is portable: all platform-dependent details are hidden inside.
Enhancements:
- Added support for HP-UX
- Compilation problems solved on *BSD systems (64-bit seek issue)
- Several MacOS X compilation problems solved (socklen_t, libtool)
- MSVC project files are now in the new VC7+ format (.sln, .vcproj)
- Dropped support for BSDi, CygWin and also the Borland C++ compiler.
Download (0.22MB)
Added: 2007-06-27 License: zlib/libpng License Price:
853 downloads
MIME::Type 1.19
MIME::Type is a definition of one MIME type. more>>
MIME::Type is a definition of one MIME type.
SYNOPSIS
use MIME::Types;
my $mimetypes = MIME::Types->new;
my MIME::Type $plaintext = $mimetypes->type(text/plain);
print $plaintext->mediaType; # text
print $plaintext->subType; # plain
my @ext = $plaintext->extensions;
print "@ext" # txt asc c cc h hh cpp
print $plaintext->encoding # 8bit
if($plaintext->isBinary) # false
if($plaintext->isAscii) # true
if($plaintext->equals(text/plain) {...}
if($plaintext eq text/plain) # same
print MIME::Type->simplified(x-appl/x-zip) # appl/zip
MIME types are used in MIME entities, for instance as part of e-mail and HTTP traffic. Sometimes real knowledge about a mime-type is need. Objects of MIME::Type store the information on one such type.
This module is built to conform to the MIME types of RFCs 2045 and 2231. It follows the official IANA registry at http://www.iana.org/assignments/media-types/ and the collection kept at http://www.ltsw.se/knbase/internet/mime.htp
<<lessSYNOPSIS
use MIME::Types;
my $mimetypes = MIME::Types->new;
my MIME::Type $plaintext = $mimetypes->type(text/plain);
print $plaintext->mediaType; # text
print $plaintext->subType; # plain
my @ext = $plaintext->extensions;
print "@ext" # txt asc c cc h hh cpp
print $plaintext->encoding # 8bit
if($plaintext->isBinary) # false
if($plaintext->isAscii) # true
if($plaintext->equals(text/plain) {...}
if($plaintext eq text/plain) # same
print MIME::Type->simplified(x-appl/x-zip) # appl/zip
MIME types are used in MIME entities, for instance as part of e-mail and HTTP traffic. Sometimes real knowledge about a mime-type is need. Objects of MIME::Type store the information on one such type.
This module is built to conform to the MIME types of RFCs 2045 and 2231. It follows the official IANA registry at http://www.iana.org/assignments/media-types/ and the collection kept at http://www.ltsw.se/knbase/internet/mime.htp
Download (0.017MB)
Added: 2007-06-01 License: Perl Artistic License Price:
877 downloads
Hash::Type 1.05
Hash::Type module contains pseudo-hashes as arrays tied to a type (list of fields). more>>
Hash::Type module contains pseudo-hashes as arrays tied to a "type" (list of fields).
SYNOPSIS
use Hash::Type;
# create a Hash::Type
my $personType = new Hash::Type(qw(firstname lastname city));
# create and populate some hashes tied to $personType
tie %wolfgang, $personType, "wolfgang amadeus", "mozart", "salzburg";
$ludwig = new $personType ("ludwig", "van beethoven", "vienna");
$jsb = new $personType;
$jsb->{city} = "leipzig";
@{$jsb}{qw(firstname lastname)} = ("johann sebastian", "bach");
# add fields dynamically
$personType->add("birth", "death") or die "fields not added";
$wolfgang{birth} = 1750;
# More complete example : read a flat file with headers on first line
my ($headerline, @datalines) = map {chomp; $_} ;
my $ht = new Hash::Type(split /t/, $headerline);
foreach my $line (@datalines) {
my $data = new $ht(split /t/, $line);
work_with($data->{someField}, $data->{someOtherField});
}
# an alternative to Time::gmtime and Time::localtime
my $timeType = new Hash::Type qw(sec min hour mday mon year wday yday);
my $localtime = new $timeType (localtime);
my $gmtime = new $timeType (gmtime);
print $localtime->{hour} - $gmtime->{hour}, " hours difference to GMT";
# comparison functions
my $byAge = $personType->cmp("birth : -num, lastname, firstname");
my $byNameLength = $personType->cmp(lastname => {length($b) length($a)},
lastname => alpha,
firstname => alpha);
showPerson($_) foreach (sort $byAge @people);
showPerson($_) foreach (sort $byNameLength @people);
# special comparisons : dates
my $US_DateCmp = $myHashType->cmp("someDateField : m/d/y");
my $FR_InverseDateCmp = $myHashType->cmp("someDateField : -d.m.y");
<<lessSYNOPSIS
use Hash::Type;
# create a Hash::Type
my $personType = new Hash::Type(qw(firstname lastname city));
# create and populate some hashes tied to $personType
tie %wolfgang, $personType, "wolfgang amadeus", "mozart", "salzburg";
$ludwig = new $personType ("ludwig", "van beethoven", "vienna");
$jsb = new $personType;
$jsb->{city} = "leipzig";
@{$jsb}{qw(firstname lastname)} = ("johann sebastian", "bach");
# add fields dynamically
$personType->add("birth", "death") or die "fields not added";
$wolfgang{birth} = 1750;
# More complete example : read a flat file with headers on first line
my ($headerline, @datalines) = map {chomp; $_} ;
my $ht = new Hash::Type(split /t/, $headerline);
foreach my $line (@datalines) {
my $data = new $ht(split /t/, $line);
work_with($data->{someField}, $data->{someOtherField});
}
# an alternative to Time::gmtime and Time::localtime
my $timeType = new Hash::Type qw(sec min hour mday mon year wday yday);
my $localtime = new $timeType (localtime);
my $gmtime = new $timeType (gmtime);
print $localtime->{hour} - $gmtime->{hour}, " hours difference to GMT";
# comparison functions
my $byAge = $personType->cmp("birth : -num, lastname, firstname");
my $byNameLength = $personType->cmp(lastname => {length($b) length($a)},
lastname => alpha,
firstname => alpha);
showPerson($_) foreach (sort $byAge @people);
showPerson($_) foreach (sort $byNameLength @people);
# special comparisons : dates
my $US_DateCmp = $myHashType->cmp("someDateField : m/d/y");
my $FR_InverseDateCmp = $myHashType->cmp("someDateField : -d.m.y");
Download (0.008MB)
Added: 2007-08-06 License: Perl Artistic License Price:
813 downloads
Data::Type 0.01.04
Data::Type is a Perl module with versatile data and value types. more>>
Data::Type is a Perl module with versatile data and value types.
SYNOPSIS
use Data::Type qw(:all);
use Error qw(:try);
try
{
verify $email , EMAIL;
verify $homepage , URI(http);
verify $cc , CREDITCARD( MASTERCARD, VISA );
verify $answer_a , YESNO;
verify $gender , GENDER;
verify one , ENUM( qw(one two three) );
verify [qw(two six)], SET( qw(one two three four five six) ) );
verify $server_ip4 , IP(v4);
verify $server_ip6 , IP(v6);
verify A35231AH1 , CINS;
verify 14565935 , ISSN;
verify DE , LANGCODE;
verify German , LANGNAME;
verify 012345678905, UPC();
verify 5276440065421319, CREDITCARD( MASTERCARD ) );
verify ATGCAAAT , BIO::DNA;
verify AUGGGAAAU , BIO::RNA;
verify 01001001110110101, BINARY;
verify 0F 0C 0A, HEX;
verify 0 , DEFINED;
verify 234 , NUM( 20 );
verify 1 , BOOL( true );
verify 100 , INT;
verify 1.1 , REAL;
my $foo = bless( 123, SomeThing );
verify $foo , REF;
verify $foo , REF( qw(SomeThing Else) );
verify [ bar ] , REF( ARRAY );
verify x 20 , VARCHAR( 20 );
verify 2001-01-01 , DATE( MYSQL );
verify 16 Nov 94 22:28:20 PST , DATE( DATEPARSE );
verify 9999-12-31 23:59:59, DATETIME;
verify 1970-01-01 00:00:00, TIMESTAMP;
verify -838:59:59 , TIME;
verify 2155 , YEAR;
verify 69 , YEAR(2);
verify 0 x 20 , TINYTEXT;
verify 0 x 20 , MEDIUMTEXT;
verify 0 x 20 , LONGTEXT;
verify 0 x 20 , TEXT;
verify 80 , PORT;
verify www.cpan.org, DOMAIN;
}
catch Type::Exception with
{
my $e = shift;
printf "Expected %s %s at %s line %sn",
$e->value,
$e->type->info,
$e->was_file,
$e->was_line;
foreach my $entry ( testplan( $e->type ) )
{
printf "texpecting it %s %s ", $entry->[1] ? is : is NOT, $entry->[0]->info();
}
};
# believe it or not, this really works
foreach ( EMAIL, WORD, CREDITCARD( MASTERCARD, VISA ), BIO::DNA, HEX )
{
print $_->info;
print $_->usage;
print $_->export; # does it have other names
print $_->param; # what are my choice i.e. [yes,no]
print $_->isa( IType::Business ); # is it a Business related type ?
print $_->VERSION; # first apperance in Data::Type release
}
# tied interface (alias typ)
try
{
typ ENUM( qw(DNA RNA) ), ( my $a, my $b );
print "a is typed" if istyp( $a );
$a = DNA; # $alias only accepts DNA or RNA
$a = RNA;
$a = xNA; # throws exception
untyp( $alias );
}
catch Type::Exception ::with
{
printf "Expected %s %s at %s line %sn",
$e->value,
$e->type->info,
$e->was_file,
$e->was_line;
};
dverify( $email, EMAIL ) or die $!;
my $g = Data::Type::Guard->new(
allow => [ Human, Others ], # blessed objects of that type
tests =>
{
email => EMAIL( 1 ), # mxcheck ON ! see Email::Valid
firstname => WORD,
social_id => [ NUM, VARCHAR( 10 ) ],
contacts => sub { my %args = @_; exists $args{lucy} },
}
);
$g->inspect( $h );
# compact version
overify { email => EMAIL( 1 ), firstname => WORD }, $object_a, $object_b;
print toc();
print catalog();
This module supports versatile data and value types. Out of the ordinary it supports parameterised types (like databases have i.e. VARCHAR(80) ). When you try to feed a typed variable against some odd data, this module explains what he would have expected.
<<lessSYNOPSIS
use Data::Type qw(:all);
use Error qw(:try);
try
{
verify $email , EMAIL;
verify $homepage , URI(http);
verify $cc , CREDITCARD( MASTERCARD, VISA );
verify $answer_a , YESNO;
verify $gender , GENDER;
verify one , ENUM( qw(one two three) );
verify [qw(two six)], SET( qw(one two three four five six) ) );
verify $server_ip4 , IP(v4);
verify $server_ip6 , IP(v6);
verify A35231AH1 , CINS;
verify 14565935 , ISSN;
verify DE , LANGCODE;
verify German , LANGNAME;
verify 012345678905, UPC();
verify 5276440065421319, CREDITCARD( MASTERCARD ) );
verify ATGCAAAT , BIO::DNA;
verify AUGGGAAAU , BIO::RNA;
verify 01001001110110101, BINARY;
verify 0F 0C 0A, HEX;
verify 0 , DEFINED;
verify 234 , NUM( 20 );
verify 1 , BOOL( true );
verify 100 , INT;
verify 1.1 , REAL;
my $foo = bless( 123, SomeThing );
verify $foo , REF;
verify $foo , REF( qw(SomeThing Else) );
verify [ bar ] , REF( ARRAY );
verify x 20 , VARCHAR( 20 );
verify 2001-01-01 , DATE( MYSQL );
verify 16 Nov 94 22:28:20 PST , DATE( DATEPARSE );
verify 9999-12-31 23:59:59, DATETIME;
verify 1970-01-01 00:00:00, TIMESTAMP;
verify -838:59:59 , TIME;
verify 2155 , YEAR;
verify 69 , YEAR(2);
verify 0 x 20 , TINYTEXT;
verify 0 x 20 , MEDIUMTEXT;
verify 0 x 20 , LONGTEXT;
verify 0 x 20 , TEXT;
verify 80 , PORT;
verify www.cpan.org, DOMAIN;
}
catch Type::Exception with
{
my $e = shift;
printf "Expected %s %s at %s line %sn",
$e->value,
$e->type->info,
$e->was_file,
$e->was_line;
foreach my $entry ( testplan( $e->type ) )
{
printf "texpecting it %s %s ", $entry->[1] ? is : is NOT, $entry->[0]->info();
}
};
# believe it or not, this really works
foreach ( EMAIL, WORD, CREDITCARD( MASTERCARD, VISA ), BIO::DNA, HEX )
{
print $_->info;
print $_->usage;
print $_->export; # does it have other names
print $_->param; # what are my choice i.e. [yes,no]
print $_->isa( IType::Business ); # is it a Business related type ?
print $_->VERSION; # first apperance in Data::Type release
}
# tied interface (alias typ)
try
{
typ ENUM( qw(DNA RNA) ), ( my $a, my $b );
print "a is typed" if istyp( $a );
$a = DNA; # $alias only accepts DNA or RNA
$a = RNA;
$a = xNA; # throws exception
untyp( $alias );
}
catch Type::Exception ::with
{
printf "Expected %s %s at %s line %sn",
$e->value,
$e->type->info,
$e->was_file,
$e->was_line;
};
dverify( $email, EMAIL ) or die $!;
my $g = Data::Type::Guard->new(
allow => [ Human, Others ], # blessed objects of that type
tests =>
{
email => EMAIL( 1 ), # mxcheck ON ! see Email::Valid
firstname => WORD,
social_id => [ NUM, VARCHAR( 10 ) ],
contacts => sub { my %args = @_; exists $args{lucy} },
}
);
$g->inspect( $h );
# compact version
overify { email => EMAIL( 1 ), firstname => WORD }, $object_a, $object_b;
print toc();
print catalog();
This module supports versatile data and value types. Out of the ordinary it supports parameterised types (like databases have i.e. VARCHAR(80) ). When you try to feed a typed variable against some odd data, this module explains what he would have expected.
Download (0.022MB)
Added: 2006-10-02 License: Perl Artistic License Price:
1117 downloads
Data::Type::Docs 0.01.15
Data::Type::Docs is a Perl module with the manual overview. more>>
Data::Type::Docs is a Perl module with the manual overview.
MANUALS
Data::Type::Docs::FAQ
Frequently asked questions.
Data::Type::Docs::FOP
Frequently occuring problems.
Data::Type::Docs::Howto
Point to point recipes how to get things done.
Data::Type::Docs::RFC
Exact API description. Startpoint for datatype developers.
NAVIGATION
First read the following paragraphs and then you may start study the Data::Type API.
<<lessMANUALS
Data::Type::Docs::FAQ
Frequently asked questions.
Data::Type::Docs::FOP
Frequently occuring problems.
Data::Type::Docs::Howto
Point to point recipes how to get things done.
Data::Type::Docs::RFC
Exact API description. Startpoint for datatype developers.
NAVIGATION
First read the following paragraphs and then you may start study the Data::Type API.
Download (0.069MB)
Added: 2006-10-12 License: Perl Artistic License Price:
1107 downloads
Teamspeak 0.3
Teamspeak is a Perl interface to administrate Teamspeak-Server. more>>
Teamspeak is a Perl interface to administrate Teamspeak-Server.
SYNOPSIS
use Teamspeak;
my $t = Teamspeak->new(
timeout => ,
port => ,
host =>
);
You can connect to a Teamspeak-Server in four different Connection-Types: 1. Telnet 2. MySQL or MySQL::Lite 3. Web-Frontend 4. Teamspeak-Client is using UDP
Every Connection-Type can only use a part of all available Methods.
<<lessSYNOPSIS
use Teamspeak;
my $t = Teamspeak->new(
timeout => ,
port => ,
host =>
);
You can connect to a Teamspeak-Server in four different Connection-Types: 1. Telnet 2. MySQL or MySQL::Lite 3. Web-Frontend 4. Teamspeak-Client is using UDP
Every Connection-Type can only use a part of all available Methods.
Download (0.026MB)
Added: 2007-05-25 License: Perl Artistic License Price:
895 downloads
Typing Trainer 1.0rc3
Typing Trainer is a software developed to exercise typing skills. more>>
Typing Trainer is a software developed to exercise typing skills.
Typing Trainer is designed for exercising typing speed and typing accuracy, by providing an environment to type in a copy of an original text within a specific time period.
It also has the ability to store the results of such an exercise for exam purposes.
Enhancements:
- Some bugfixes in unicode handling, primarily in the way results are displayed.
<<lessTyping Trainer is designed for exercising typing speed and typing accuracy, by providing an environment to type in a copy of an original text within a specific time period.
It also has the ability to store the results of such an exercise for exam purposes.
Enhancements:
- Some bugfixes in unicode handling, primarily in the way results are displayed.
Download (0.53MB)
Added: 2006-10-09 License: GPL (GNU General Public License) Price:
1119 downloads
Class::Meta::Type 0.53
Class::Meta::Type is a Perl module for data type validation and accessor building. more>>
Class::Meta::Type is a Perl module for data type validation and accessor building.
SYNOPSIS
package MyApp::TypeDef;
use strict;
use Class::Meta::Type;
use IO::Socket;
my $type = Class::Meta::Type->add( key => io_socket,
desc => IO::Socket object,
name => IO::Socket Object );
This class stores the various data types used by Class::Meta. It manages all aspects of data type validation and method creation. New data types can be added to Class::Meta::Type by means of the add() constructor. This is useful for creating custom types for your Class::Meta-built classes.
Note:This class manages the most advanced features of Class::Meta. Before deciding to create your own accessor closures as described in add(), you should have a thorough working knowledge of how Class::Meta works, and have studied the add() method carefully. Simple data type definitions such as that shown in the SYNOPSIS, on the other hand, are encouraged.
<<lessSYNOPSIS
package MyApp::TypeDef;
use strict;
use Class::Meta::Type;
use IO::Socket;
my $type = Class::Meta::Type->add( key => io_socket,
desc => IO::Socket object,
name => IO::Socket Object );
This class stores the various data types used by Class::Meta. It manages all aspects of data type validation and method creation. New data types can be added to Class::Meta::Type by means of the add() constructor. This is useful for creating custom types for your Class::Meta-built classes.
Note:This class manages the most advanced features of Class::Meta. Before deciding to create your own accessor closures as described in add(), you should have a thorough working knowledge of how Class::Meta works, and have studied the add() method carefully. Simple data type definitions such as that shown in the SYNOPSIS, on the other hand, are encouraged.
Download (0.060MB)
Added: 2006-09-22 License: Perl Artistic License Price:
1127 downloads
Planetoids 1.0
Planetoids is a game similar to bejeweled. more>>
Planetoids is a game similar to bejeweled. The player must swap jewels to create combinations, including power and hyper jewels.
It includes a top score board to keep track of high player scores. Planetoids game also includes a hint feature, various jewel types, custom board sizes, and more.
<<lessIt includes a top score board to keep track of high player scores. Planetoids game also includes a hint feature, various jewel types, custom board sizes, and more.
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Added: 2006-02-08 License: Freeware Price:
1353 downloads
Hyperic HQ 3.1
Hyperic HQ is a distributed infrastructure management system. more>>
Hyperic HQ project is a distributed infrastructure management system whose architecture assures scalability, while keeping the solution easy to deploy.
HQs design is meant to deliver on the promise of a single integrated management portal capable of managing unlimited types of technologies in environments that range from small business IT departments to the operations groups of todays largest financial and industrial organizations.
<<lessHQs design is meant to deliver on the promise of a single integrated management portal capable of managing unlimited types of technologies in environments that range from small business IT departments to the operations groups of todays largest financial and industrial organizations.
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Added: 2007-08-09 License: GPL (GNU General Public License) Price:
842 downloads
Battery OSD 0.1
Battery OSD displays battery information and other types of system information on screen with the OSD library. more>>
Battery OSD is a program that displays battery information and other types of system information on screen with the OSD library.
<<less Download (0.003MB)
Added: 2006-02-22 License: GPL (GNU General Public License) Price:
1354 downloads
Audio::File::Type 0.10
Audio::File::Type represents an audio filetype. more>>
Audio::File::Type represents an audio filetype.
An instance of an object inherited from Audio::File::Type is returned by the constructor of Audio::File. This object currently provides access to the audio files information like its audio properties (bitrate, sample rate, number of channels, ...) and the data stored in the files tag, but also providing access to the raw audio data and other information should be easy to be implemented.
METHODS
new
Constructor. In fact you dont need to use it. Please use Audio::File which will call the appropriate constructor corresponding to the files type.
init
This method will be called by the constructor. Its empty by default and should be overwritten by inheriting subclasses to initialize themselfes.
name
Returns the name of the audio file.
is_readable
Checks whether the file is readable or not. At the moment its only used by the constructor, but it will be more usefull with later versions of Audio::File.
is_writeable
Checks whether the file is writeable or not. At the moment youll probably dont need to call this method, but itll be more usefull as soon as changing the audio file is implemented.
tag
Returns a reference to the files tag object. See the documentation of Audio::File::Tag to learn about what the tag object does.
audio_properties
Returns a reference to the files audio properties object. See the documentation of Audio::File::AudioProperties to get information about what the audio properties object does.
save
Saves the audio file. This is not yet implemented but it should remember me to do it at some time..
type
Returns the files type.
<<lessAn instance of an object inherited from Audio::File::Type is returned by the constructor of Audio::File. This object currently provides access to the audio files information like its audio properties (bitrate, sample rate, number of channels, ...) and the data stored in the files tag, but also providing access to the raw audio data and other information should be easy to be implemented.
METHODS
new
Constructor. In fact you dont need to use it. Please use Audio::File which will call the appropriate constructor corresponding to the files type.
init
This method will be called by the constructor. Its empty by default and should be overwritten by inheriting subclasses to initialize themselfes.
name
Returns the name of the audio file.
is_readable
Checks whether the file is readable or not. At the moment its only used by the constructor, but it will be more usefull with later versions of Audio::File.
is_writeable
Checks whether the file is writeable or not. At the moment youll probably dont need to call this method, but itll be more usefull as soon as changing the audio file is implemented.
tag
Returns a reference to the files tag object. See the documentation of Audio::File::Tag to learn about what the tag object does.
audio_properties
Returns a reference to the files audio properties object. See the documentation of Audio::File::AudioProperties to get information about what the audio properties object does.
save
Saves the audio file. This is not yet implemented but it should remember me to do it at some time..
type
Returns the files type.
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Added: 2006-06-19 License: Perl Artistic License Price:
1222 downloads
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