Provided by: pdl_2.080-3_amd64 
NAME
PDL::Types - define fundamental PDL Datatypes
SYNOPSIS
use PDL::Types;
$pdl = ushort( 2.0, 3.0 );
print "The actual c type used to store ushort's is '" .
$pdl->type->realctype() . "'\n";
The actual c type used to store ushort's is 'unsigned short'
DESCRIPTION
Internal module - holds all the PDL Type info. The type info can be accessed easily using
the "PDL::Type" object returned by the type method as shown in the synopsis.
Skip to the end of this document to find out how to change the set of types supported by
PDL.
FUNCTIONS
A number of functions are available for module writers to get/process type information.
These are used in various places (e.g. "PDL::PP", "PDL::Core") to generate the appropriate
type loops, etc.
typesrtkeys
Returns an array of keys of typehash sorted in order of type complexity
pdl> @typelist = PDL::Types::typesrtkeys;
pdl> print @typelist;
PDL_B PDL_S PDL_US PDL_L PDL_IND PDL_LL PDL_F PDL_D
ppdefs
Returns an array of pp symbols for all real types. This informs the default "GenericTypes"
for "pp_def" functions, making support for complex types require an "opt-in".
pdl> print PDL::Types::ppdefs
B S U L N Q F D
ppdefs_complex
Returns an array of pp symbols for all complex types.
pdl> print PDL::Types::ppdefs_complex
G C
ppdefs_all
Returns an array of pp symbols for all types including complex.
pdl> print PDL::Types::ppdefs_all
B S U L N Q F D G C
typesynonyms
return type related synonym definitions to be included in pdl.h . This routine must be
updated to include new types as required. Mostly the automatic updating should take care
of the vital things.
PDL TYPES OVERVIEW
As of 2.065, PDL supports these types:
SByte
Signed 8-bit value.
Byte
Unsigned 8-bit value.
Short
Signed 16-bit value.
UShort
Unsigned 16-bit value.
Long
Signed 32-bit value.
ULong
Unsigned 32-bit value.
Indx
Signed value, same size as a pointer on the system in use.
LongLong
Signed 64-bit value.
ULongLong
Unsigned 64-bit value.
Float
IEEE 754 <https://en.wikipedia.org/wiki/IEEE_754> single-precision real floating-point
value.
Double
IEEE 754 double-precision real value.
LDouble
A C99 "long double", defined as "at least as precise as a double", but often more
precise.
CFloat
A C99 complex single-precision floating-point value.
CDouble
A C99 complex double-precision floating-point value.
CLDouble
A C99 complex "long double" - see above for description.
PDL::Type OBJECTS
This module declares one class - "PDL::Type" - objects of this class are returned by the
type method of an ndarray. It has several methods, listed below, which provide an easy
way to access type information:
Additionally, comparison and stringification are overloaded so that you can compare and
print type objects, e.g.
$nofloat = 1 if $pdl->type < float;
die "must be double" if $type != double;
For further examples check again the type method.
enum
Returns the number representing this datatype (see get_datatype).
symbol
Returns one of 'PDL_B', 'PDL_S', 'PDL_US', 'PDL_L', 'PDL_IND', 'PDL_LL', 'PDL_F' or
'PDL_D'.
ctype
Returns the macro used to represent this type in C code (eg 'PDL_Long').
ppsym
The letter used to represent this type in PP code (eg 'U' for ushort).
realctype
The actual C type used to store this type.
shortctype
The value returned by "ctype" without the 'PDL_' prefix.
badvalue
The special numerical value used to represent bad values for this type. See
"badvalue" in PDL::Bad for more details.
isnan
Given a string representing a C value, will return a C expression for this type that
indicates whether that value is NaN (for complex values, if either is NaN).
isfinite
Given a string representing a C value, will return a C expression for this type that
indicates whether that value is finite (for complex values, if both are finite).
floatsuffix
The string appended to floating-point functions for this floating-point type. Dies if
called on non-floating-point type.
orig_badvalue
The default special numerical value used to represent bad values for this type. (You
can change the value that represents bad values for each type during runtime.) See the
orig_badvalue routine in PDL::Bad for more details.
bswap
Returns the appropriate "bswap*" from PDL::IO::Misc for the size of this type,
including a no-op for types of size 1. Note this means a one-line construction means
you must call the return value:
$pdl->type->bswap->($pdl);
DEVELOPER NOTES ON ADDING/REMOVING TYPEs
You can change the types that PDL knows about by editing entries in the definition of the
variable @types that appears close to the top of the file Types.pm.PL (i.e. the file from
which this module was generated).
Format of a type entry
Each entry in the @types array is a hash reference. Here is an example taken from the
actual code that defines the "ushort" type:
{
identifier => 'US',
onecharident => 'U', # only needed if different from identifier
pdlctype => 'PDL_Ushort',
realctype => 'unsigned short',
ppforcetype => 'ushort',
usenan => 0,
packtype => 'S*',
defaultbadval => 'USHRT_MAX',
real=>1,
integer=>1,
unsigned=>1,
},
Before we start to explain the fields please take this important message on board: entries
must be listed in order of increasing complexity. This is critical to ensure that PDL's
type conversion works correctly. Basically, a less complex type will be converted to a
more complex type as required.
Fields in a type entry
Each type entry has a number of required and optional entry.
A list of all the entries:
• identifier
Required. A short sequence of upercase letters that identifies this type uniquely.
More than three characters is probably overkill.
• onecharident
Optional. Only required if the "identifier" has more than one character. This should
be a unique uppercase character that will be used to reference this type in PP macro
expressions of the "TBSULFD" type - see "$T" in PDL::PP.
• pdlctype
Required. The "typedef"ed name that will be used to access this type from C code.
• realctype
Required. The C compiler type that is used to implement this type. For portability
reasons this one might be platform dependent.
• ppforcetype
Required. The type name used in PP signatures to refer to this type.
• usenan
Required. Flag that signals if this type has to deal with NaN issues. Generally only
required for floating point types.
• packtype
Required. The Perl pack type used to pack Perl values into the machine representation
for this type. For details see "perldoc -f pack".
• integer
Required. Boolean - is this an integer type?
• unsigned
Required. Boolean - is this an unsigned type?
• real
Required. Boolean - is this a real (not complex) type?
• realversion
String - the real version of this type (e.g. cdouble -> 'D').
• complexversion
String - the complex version of this type (e.g. double -> 'C').
Also have a look at the entries at the top of Types.pm.PL.
The syntax is not written into stone yet and might change as the concept matures.
Other things you need to do
You need to check modules that do I/O (generally in the IO part of the directory tree). In
the future we might add fields to type entries to automate this. This requires changes to
those IO modules first though.
You should also make sure that any type macros in PP files (i.e. "$TBSULFD...") are
updated to reflect the new type. PDL::PP::Dump has a mode to check for type macros
requiring updating. Do something like
find . -name \*.pd -exec perl -Mblib=. -M'PDL::PP::Dump=typecheck' {} \;
from the PDL root directory after updating Types.pm.PL to check for such places.