NAME
Imager::API - Imager's C API - introduction.
SYNOPSIS
#include "imext.h"
#include "imperl.h"
DEFINE_IMAGER_CALLBACKS;
MODULE = Your::Module PACKAGE = Your::Module
...
BOOT:
PERL_INITIALIZE_IMAGER_CALLBACKS;
DESCRIPTION
The API allows you to access Imager functions at the C level from XS and from Inline::C.
The intent is to allow users to:
write C code that does Imager operations the user might do from Perl, but faster, for example, the Imager::CountColor example.
write C code that implements an application specific version of some core Imager object, for example, Imager::SDL.
write C code that hooks into Imager's existing methods, such as filter or file format handlers.
See Imager::Inline for information on using Imager's Inline::C support.
Beware
don't return an object you received as a parameter - this will cause the object to be freed twice.
Types
The API makes the following types visible:
i_img - used to represent an image
i_color - used to represent a color with up to 8 bits per sample.
i_fcolor - used to represent a color with a double per sample.
i_fill_t - an abstract fill
At this point there is no consolidated font object type, and hence the font functions are not visible through Imager's API.
i_img - images
This contains the dimensions of the image (xsize
, ysize
, channels
), image metadata (ch_mask
, bits
, type
, virtual
), potentially image data (idata
) and the a function table, with pointers to functions to perform various low level image operations.
The only time you should directly write to any value in this type is if you're implementing your own image type.
The typemap includes type names Imager and Imager::ImgRaw as typedefs for i_img *
.
For incoming parameters the typemap will accept either Imager or Imager::ImgRaw objects.
For return values the typemap will produce a full Imager object for an Imager return type and a raw image object for an Imager::ImgRaw return type.
i_color
- 8-bit color
Represents an 8-bit per sample color. This is a union containing several different structs for access to components of a color:
gray
- single membergray_color
.rgb
-r
,g
,b
members.rgba
-r
,g
,b
,a
members.channels
- array of channels.
Use Imager::Color for parameter and return value types.
i_fcolor
- floating point color
Similar to i_color
except that each component is a double instead of an unsigned char.
Use Imager::Color::Float for parameter and return value types.
i_fill_t
- fill objects
Abstract type containing pointers called to perform low level fill operations.
Unless you're defining your own fill objects you should treat this as an opaque type.
Use Imager::FillHandle for parameter and return value types. At the Perl level this is stored in the fill
member of the Perl level Imager::Fill object.
Create an XS module using the Imager API
Foo.pm
Load Imager:
use Imager 0.48;
and bootstrap your XS code - see XSLoader or DynaLoader.
Foo.xs
You'll need the following in your XS source:
include the Imager external API header, and the perl interface header:
#include "imext.h" #include "imperl.h"
create the variables used to hold the callback table:
DEFINE_IMAGER_CALLBACKS;
initialize the callback table in your
BOOT
code:BOOT: PERL_INITIALIZE_IMAGER_CALLBACKS;
foo.c
In any other source files where you want to access the Imager API, you'll need to:
include the Imager external API header:
#include "imext.h"
Makefile.PL
If you're creating an XS module that depends on Imager's API your Makefile.PL
will need to do the following:
use Imager::ExtUtils;
include Imager's include directory in INC:
INC => Imager::ExtUtils->includes
use Imager's typemap:
TYPEMAPS => [ Imager::ExtUtils->typemap ]
include Imager 0.48 as a PREREQ_PM:
PREREQ_PM => { Imager => 0.48, },
Since you use Imager::ExtUtils in
Makefile.PL
(orBuild.PL
) you should include Imager in your configure_requires:META_MERGE => { configure_requires => { Imager => "0.48" } },
AUTHOR
Tony Cook <tony@imager.perl.org>
SEE ALSO
Imager, Imager::ExtUtils, Imager::APIRef, Imager::Inline