glib-0.12.4: Binding to the GLIB library for Gtk2Hs.

Portabilityportable (depends on GHC)
Stabilityprovisional
Maintainergtk2hs-users@lists.sourceforge.net
Safe HaskellNone

System.Glib.GError

Contents

Description

Error Reporting, glib's system for reporting errors.

GErrors are used by glib to report recoverable runtime errors.

This module provides functions for checking glib/gtk functions that report GErrors. It also provides functions for throwing and catching GErrors as Haskell exceptions.

Synopsis

Data types

data GError Source

A GError consists of a domain, code and a human readable message.

type GErrorDomain = GQuarkSource

A code used to identify the 'namespace' of the error. Within each error domain all the error codes are defined in an enumeration. Each gtk/gnome module that uses GErrors has its own error domain. The rationale behind using error domains is so that each module can organise its own error codes without having to coordinate on a global error code list.

type GErrorCode = IntSource

A code to identify a specific error within a given GErrorDomain. Most of time you will not need to deal with this raw code since there is an enumeration type for each error domain. Of course which enumeraton to use depends on the error domain, but if you use catchGErrorJustDomain or handleGErrorJustDomain, this is worked out for you automatically.

type GErrorMessage = StringSource

A human readable error message.

Catching GError exceptions

To catch GError exceptions thrown by Gtk2Hs functions use the catchGError* or handleGError* functions. They work in a similar way to the standard catch and handle functions.

catchGError / handleGError catches all GError exceptions, you provide a handler function that gets given the GError if an exception was thrown. This is the most general but is probably not what you want most of the time. It just gives you the raw error code rather than a Haskell enumeration of the error codes. Most of the time you will only want to catch a specific error or any error from a specific error domain. To catch just a single specific error use catchGErrorJust / handleGErrorJust. To catch any error in a particular error domain use catchGErrorJustDomain / handleGErrorJustDomain

catchGErrorJustSource

Arguments

:: GErrorClass err 
=> err

The error to catch

-> IO a

The computation to run

-> (GErrorMessage -> IO a)

Handler to invoke if an exception is raised

-> IO a 

This will catch just a specific GError exception. If you need to catch a range of related errors, catchGErrorJustDomain is probably more appropriate. Example:

 do image <- catchGErrorJust PixbufErrorCorruptImage
 loadImage
 (\errorMessage -> do log errorMessage
 return mssingImagePlaceholder)

catchGErrorJustDomainSource

Arguments

:: GErrorClass err 
=> IO a

The computation to run

-> (err -> GErrorMessage -> IO a)

Handler to invoke if an exception is raised

-> IO a 

Catch all GErrors from a particular error domain. The handler function should just deal with one error enumeration type. If you need to catch errors from more than one error domain, use this function twice with an appropriate handler functions for each.

 catchGErrorJustDomain
 loadImage
 (\err message -> case err of
 PixbufErrorCorruptImage -> ...
 PixbufErrorInsufficientMemory -> ...
 PixbufErrorUnknownType -> ...
 _ -> ...)

handleGErrorJust :: GErrorClass err => err -> (GErrorMessage -> IO a) -> IO a -> IO aSource

A verson of handleGErrorJust with the arguments swapped around.

handleGErrorJustDomain :: GErrorClass err => (err -> GErrorMessage -> IO a) -> IO a -> IO aSource

A verson of catchGErrorJustDomain with the arguments swapped around.

Deprecated

catchGErrorSource

Arguments

:: IO a

The computation to run

-> (GError -> IO a)

Handler to invoke if an exception is raised

-> IO a 

Deprecated: Use ordinary Control.Exception.catch

This will catch any GError exception. The handler function will receive the raw GError. This is probably only useful when you want to take some action that does not depend on which GError exception has occured, otherwise it would be better to use either catchGErrorJust or catchGErrorJustDomain. For example:

 catchGError
 (do ...
 ...)
 (\(GError dom code msg) -> fail msg)

handleGError :: (GError -> IO a) -> IO a -> IO aSource

Deprecated: Use ordinary Control.Exception.handle

A verson of catchGError with the arguments swapped around.

 handleGError (\(GError dom code msg) -> ...) $
 ...

failOnGError :: IO a -> IO aSource

Catch all GError exceptions and convert them into a general failure.

throwGError :: GError -> IO aSource

Deprecated: Use ordinary Control.Exception.throw

Use this if you need to explicitly throw a GError or re-throw an existing GError that you do not wish to handle.

Checking for GErrors returned by glib/gtk functions

  • Note, these functions are only useful to implementors

If you are wrapping a new API that reports GErrors you should probably use propagateGError to convert the GError into an exception. You should also note in the documentation for the function that it throws GError exceptions and the Haskell enumeration for the expected glib GError domain(s), so that users know what exceptions they might want to catch.

If you think it is more appropriate to use an alternate return value (eg Either/Maybe) then you should use checkGError.

class Enum err => GErrorClass err whereSource

Each error domain's error enumeration type should be an instance of this class. This class helps to hide the raw error and domain codes from the user. This interface should be implemented by calling the approrpiate {error_domain}_error_quark. It is safe to use a pure FFI call for this.

Example for PixbufError:

 instance GErrorClass PixbufError where
 gerrorDomain _ = {#call pure unsafe pixbuf_error_quark#}

Methods

gerrorDomainSource

Arguments

:: err 
-> GErrorDomain

This must not use the value of its parameter so that it is safe to pass undefined.

propagateGError :: (Ptr (Ptr ()) -> IO a) -> IO aSource

Glib functions which report GErrors take as a parameter a GError **error. Use this function to supply such a parameter. It checks if an error was reported and if so throws it as a Haskell exception.

Example of use:

 propagateGError $ \gerrorPtr ->
 {# call g_some_function_that_might_return_an_error #} a b gerrorPtr

checkGError :: (Ptr (Ptr ()) -> IO a) -> (GError -> IO a) -> IO aSource

Like propagateGError but instead of throwing the GError as an exception handles the error immediately using the supplied error handler.

Example of use:

 checkGError
 (\gerrorPtr -> {# call g_some_function_that_might_return_an_error #} a b gerrorPtr)
 (\(GError domain code msg) -> ...)