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wxErlang
Reference Manual
Version 1.2


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wx

MODULE

wx

MODULE SUMMARY

A port of wxWidgets.

DESCRIPTION

A port of wxWidgets.

This is the base api of wxWidgets. This module contains functions for starting and stopping the wx-server, as well as other utility functions.

wxWidgets is object oriented, and not functional. Thus, in wxErlang a module represents a class, and the object created by this class has an own type, wxCLASS(). This module represents the base class, and all other wxMODULE's are sub-classes of this class.

Objects of a class are created with wxCLASS:new(...) and destroyed with wxCLASS:destroy(). Member functions are called with wxCLASS:member(Object, ...) instead of as in C++ Object.member(...).

Sub class modules inherit (non static) functions from their parents. The inherited functions are not documented in the sub-classes.

This erlang port of wxWidgets tries to be a one-to-one mapping with the original wxWidgets library. Some things are different though, as the optional arguments use property lists and can be in any order. The main difference is the event handling which is different from the original library. See wxEvtHandler.

The following classes are implemented directly as erlang types:
wxPoint={x,y},wxSize={w,h},wxRect={x,y,w,h},wxColour={r,g,b [,a]}, wxString=unicode:chardata(), wxGBPosition={r,c},wxGBSpan={rs,cs},wxGridCellCoords={r,c}.

wxWidgets uses a process specific environment, which is created by wx:new/0. To be able to use the environment from other processes, call get_env/0 to retrieve the environment and set_env/1 to assign the environment in the other process.

Global (classless) functions are located in the wx_misc module.

DATA TYPES

wx_colour() = {R::byte(), G::byte(), B::byte()} | wx_colour4()
wx_colour4() = {R::byte(), G::byte(), B::byte(), A::byte()}
wx_datetime() = {{Year::integer(), Month::integer(), Day::integer()}, {Hour::integer(), Minute::integer(), Second::integer()}}

In Local Timezone

wx_enum() = integer()

Constant defined in wx.hrl

wx_env() = #wx_env{}

Opaque process environment

wx_memory() = binary() | #wx_mem{}

Opaque memory reference

wx_object() = #wx_ref{}

Opaque object reference

wx_wxHtmlLinkInfo() = #wxHtmlLinkInfo{href=undefined | chardata() (see module unicode), target=undefined | chardata() (see module unicode)}
wx_wxMouseState() = #wxMouseState{x=undefined | integer(), y=undefined | integer(), leftDown=undefined | boolean(), middleDown=undefined | boolean, rightDown=undefined | boolean, controlDown=undefined | boolean(), shiftDown=undefined | boolean(), altDown=undefined | boolean(), metaDown=undefined | boolean(), cmdDown=undefined | boolean()}

See #wxMouseState{} defined in wx.hrl

EXPORTS

parent_class(X1) -> term()

new() -> wx_object()

Starts a wx server.

new(Option::[Option]) -> wx_object()

Types:

Option = {debug, list() | atom()} | {silent_start, boolean()}

Starts a wx server. Option may be {debug, Level}, see debug/1. Or {silent_start, Bool}, which causes error messages at startup to be suppressed. The latter can be used as a silent test of whether wx is properly installed or not.

destroy() -> ok

Stops a wx server.

get_env() -> wx_env()

Gets this process's current wx environment. Can be sent to other processes to allow them use this process wx environment.

See also: set_env/1.

set_env(Wx_env::wx_env()) -> ok

Sets the process wx environment, allows this process to use another process wx environment.

null() -> wx_object()

Returns the null object

is_null(Wx_ref::wx_object()) -> boolean()

Returns true if object is null, false otherwise

getObjectType(Wx_ref::wx_object()) -> atom()

Returns the object type

typeCast(Old::wx_object(), NewType::atom()) -> wx_object()

Casts the object to class NewType. It is needed when using functions like wxWindow:findWindow/2, which returns a generic wxObject type.

batch(Fun::function()) -> term()

Batches all wx commands used in the fun. Improves performance of the command processing by grabbing the wxWidgets thread so that no event processing will be done before the complete batch of commands is invoked.

See also: foldl/3, foldr/3, foreach/2, map/2.

foreach(Fun::function(), List::list()) -> ok

Behaves like lists:foreach/2 but batches wx commands. See batch/1.

map(Fun::function(), List::list()) -> list()

Behaves like lists:map/2 but batches wx commands. See batch/1.

foldl(Fun::function(), Acc::term(), List::list()) -> term()

Behaves like lists:foldl/3 but batches wx commands. See batch/1.

foldr(Fun::function(), Acc::term(), List::list()) -> term()

Behaves like lists:foldr/3 but batches wx commands. See batch/1.

create_memory(Size::integer()) -> wx_memory()

Creates a memory area (of Size in bytes) which can be used by an external library (i.e. opengl). It is up to the client to keep a reference to this object so it does not get garbage collected by erlang while still in use by the external library.

This is far from erlang's intentional usage and can crash the erlang emulator. Use it carefully.

get_memory_bin(Wx_mem::wx_memory()) -> binary()

Returns the memory area as a binary.

retain_memory(Wx_mem::wx_memory()) -> ok

Saves the memory from deletion until release_memory/1 is called. If release_memory/1 is not called the memory will not be garbage collected.

release_memory(Wx_mem::wx_memory()) -> ok

debug(Debug::Level | [Level]) -> ok

Types:

Level = none | verbose | trace | driver | integer()

Sets debug level. If debug level is 'verbose' or 'trace' each call is printed on console. If Level is 'driver' each allocated object and deletion is printed on the console.

demo() -> ok | {error, atom()}

Starts a wxErlang demo if examples directory exists and is compiled