Tony Cook > Imager > Imager::API

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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:
    /* any release with the API */
    PERL_INITIALIZE_IMAGER_CALLBACKS;
    /* preferred from Imager 0.91 */
    PERL_INITIALIZE_IMAGER_CALLBACKS_NAME("My::Module");

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:

See Imager::Inline for information on using Imager's Inline::C support.

Beware ^

Types ^

The API makes the following types visible:

At this point there is no consolidated font object type, and hence the font functions are not visible through Imager's API.

i_img

This contains the dimensions of the image (xsize, ysize, channels), image metadata (ch_mask, bits, type, virtual), potentially image data (idata) and 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

Represents an 8-bit per sample color. This is a union containing several different structs for access to components of a color:

Use Imager::Color for parameter and return value types.

i_fcolor

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

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.

i_io_glue_t

i_io_glue_t is Imager's I/O abstraction.

Historically named io_glue, and this name is available for backward compatibility.

im_context_t

This new type is an opaque type that stores Imager's per-thread state, including the error message stack, the current log file state and image size file limits.

While Imager's internal typemap provides a T_PTROBJ mapping and a DESTROY method for this type you must never return objects of this type back to perl.

See "Context objects" for more information.

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:

foo.c

In any other source files where you want to access the Imager API, you'll need to:

Makefile.PL

If you're creating an XS module that depends on Imager's API your Makefile.PL will need to do the following:

Context objects ^

Starting with Imager 0.93, Imager keeps some state per-thread rather than storing it in global (or static) variables. The intent is to improve support for multi-threaded perl programs.

For the typical XS or Inline::C module using Imager's API this won't matter - the changes are hidden behind macros and rebuilding your module should require no source code changes.

Some operations will be slightly slower, these include:

You can avoid this fairly minor overhead by adding a #define:

  #define IMAGER_NO_CONTEXT

before including any Imager header files, but you will need to manage context objects yourself.

Some functions and macros that are available without IMAGER_NO_CONTEXT are not available with it defined, these are:

aIMCTX

With IMAGER_NO_CONTEXT defined, aIMCTX refers to the locally defined context object, either via one the of the dIMCTX macros or as a parameter with the pIMCTX macro.

Without IMAGER_NO_CONTEXT, aIMCTX is a call to im_get_context() which retrieves the context object for the current thread.

There is no aIMCTX_ macro, any Imager function that can accept a context parameter always accepts it.

pIMCTX

This macro declares a variable of type "im_context_t" that's accessible via the aIMCTX macro. This is intended for use as a parameter declaration for functions:

  void f(pIMCTX) {
    ... use aIMCTX here
  }

  void g(...) {
    ...
    f(aIMCTX);
  }

dIMCTX

Defines a local context variable and initializes it via im_get_context().

dIMCTXim

Defines a local context variable and initializes it from the context stored in an image object, eg:

  void f(i_img *im) {
    dIMCTXim(im);
    ...
  }

dIMCTXio

Defines a local context variable and initializes it from the context stored in an I/O object object.

  void f(i_io_glue_t *io) {
    dIMCTXio(io);
    ...
  }

dIMCTXctx

Defines a local context variable accessible via aIMCTX in terms of an expression you supply:

  void f(my_object *p) {
    dIMCTXctx(p->context);
    ...
  }

This can be used to define your own local context macro:

  #define dIMCTXmine(mine) ((mine)->context)

  void f(my_object *p) {
    dIMCTXmine(p);
    ...
  }

Mutex Functions ^

Since some libraries are not thread safe, Imager's API includes some simple mutex functions.

To create a mutex:

  i_mutex_t m = i_mutex_new();

To control or lock the mutex:

  i_mutex_lock(m);

To release or unlock the mutex:

  i_mutex_unlock(m);

To free any resources used by the mutex:

  i_mutex_destroy(m);

I most cases where you'd use these functions, your code would create the mutex in your BOOT section, then lock and unlock the mutex as needed to control access to the library.

Context slots ^

To avoid abstracting the platform TLS and thread clean up handling, Imager provides simple APIs for storing per-context information.

To allocate a slot:

  im_slot_t slot = im_context_slot_new(callback)

where callback is a (possibly NULL) function pointer called when the context object is destroyed.

By default, the stored value for a slot is NULL, whether for a new context or for a cloned context.

To store a value:

  im_context_slot_set(aIMCTX, slot, somevalue);

where somevalue can be represented as a void *.

To retrieve the value:

  value = im_context_slot_get(aIMCTX, slot);

AUTHOR ^

Tony Cook <tonyc@cpan.org>

SEE ALSO ^

Imager, Imager::ExtUtils, Imager::APIRef, Imager::Inline

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