/
types.d
2044 lines (1925 loc) · 52.3 KB
/
types.d
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/*
* This file is part of gtkD.
*
* gtkD is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation; either version 3
* of the License, or (at your option) any later version, with
* some exceptions, please read the COPYING file.
*
* gtkD is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with gtkD; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110, USA
*/
// generated automatically - do not change
// find conversion definition on APILookup.txt
// implement new conversion functionalities on the wrap.utils pakage
module gobject.c.types;
public import glib.c.types;
/**
* This is the signature of marshaller functions, required to marshall
* arrays of parameter values to signal emissions into C language callback
* invocations.
*
* It is merely an alias to #GClosureMarshal since the #GClosure mechanism
* takes over responsibility of actual function invocation for the signal
* system.
*/
public alias GClosureMarshal GSignalCMarshaller;
/**
* This is the signature of va_list marshaller functions, an optional
* marshaller that can be used in some situations to avoid
* marshalling the signal argument into GValues.
*/
public alias GVaClosureMarshal GSignalCVaMarshaller;
/**
* A value which represents the unique identifier of a registered type.
*/
enum GType : size_t
{
INVALID = 0<<2,
NONE = 1<<2,
INTERFACE = 2<<2,
CHAR = 3<<2,
UCHAR = 4<<2,
BOOLEAN = 5<<2,
INT = 6<<2,
UINT = 7<<2,
LONG = 8<<2,
ULONG = 9<<2,
INT64 = 10<<2,
UINT64 = 11<<2,
ENUM = 12<<2,
FLAGS = 13<<2,
FLOAT = 14<<2,
DOUBLE = 15<<2,
STRING = 16<<2,
POINTER = 17<<2,
BOXED = 18<<2,
PARAM = 19<<2,
OBJECT = 20<<2,
VARIANT = 21<<2,
}
/**
* Flags to be passed to g_object_bind_property() or
* g_object_bind_property_full().
*
* This enumeration can be extended at later date.
*
* Since: 2.26
*/
public enum GBindingFlags
{
/**
* The default binding; if the source property
* changes, the target property is updated with its value.
*/
DEFAULT = 0,
/**
* Bidirectional binding; if either the
* property of the source or the property of the target changes,
* the other is updated.
*/
BIDIRECTIONAL = 1,
/**
* Synchronize the values of the source and
* target properties when creating the binding; the direction of
* the synchronization is always from the source to the target.
*/
SYNC_CREATE = 2,
/**
* If the two properties being bound are
* booleans, setting one to %TRUE will result in the other being
* set to %FALSE and vice versa. This flag will only work for
* boolean properties, and cannot be used when passing custom
* transformation functions to g_object_bind_property_full().
*/
INVERT_BOOLEAN = 4,
}
alias GBindingFlags BindingFlags;
/**
* The connection flags are used to specify the behaviour of a signal's
* connection.
*/
public enum GConnectFlags
{
/**
* whether the handler should be called before or after the
* default handler of the signal.
*/
AFTER = 1,
/**
* whether the instance and data should be swapped when
* calling the handler; see g_signal_connect_swapped() for an example.
*/
SWAPPED = 2,
}
alias GConnectFlags ConnectFlags;
/**
* Through the #GParamFlags flag values, certain aspects of parameters
* can be configured.
*
* See also: %G_PARAM_STATIC_STRINGS
*/
public enum GParamFlags : uint
{
/**
* the parameter is readable
*/
READABLE = 1,
/**
* the parameter is writable
*/
WRITABLE = 2,
/**
* alias for %G_PARAM_READABLE | %G_PARAM_WRITABLE
*/
READWRITE = 3,
/**
* the parameter will be set upon object construction
*/
CONSTRUCT = 4,
/**
* the parameter can only be set upon object construction
*/
CONSTRUCT_ONLY = 8,
/**
* upon parameter conversion (see g_param_value_convert())
* strict validation is not required
*/
LAX_VALIDATION = 16,
/**
* the string used as name when constructing the
* parameter is guaranteed to remain valid and
* unmodified for the lifetime of the parameter.
* Since 2.8
*/
STATIC_NAME = 32,
/**
* internal
*/
PRIVATE = 32,
/**
* the string used as nick when constructing the
* parameter is guaranteed to remain valid and
* unmmodified for the lifetime of the parameter.
* Since 2.8
*/
STATIC_NICK = 64,
/**
* the string used as blurb when constructing the
* parameter is guaranteed to remain valid and
* unmodified for the lifetime of the parameter.
* Since 2.8
*/
STATIC_BLURB = 128,
/**
* calls to g_object_set_property() for this
* property will not automatically result in a "notify" signal being
* emitted: the implementation must call g_object_notify() themselves
* in case the property actually changes. Since: 2.42.
*/
EXPLICIT_NOTIFY = 1073741824,
/**
* the parameter is deprecated and will be removed
* in a future version. A warning will be generated if it is used
* while running with G_ENABLE_DIAGNOSTIC=1.
* Since 2.26
*/
DEPRECATED = 2147483648,
}
alias GParamFlags ParamFlags;
/**
* The signal flags are used to specify a signal's behaviour.
*/
public enum GSignalFlags
{
/**
* Invoke the object method handler in the first emission stage.
*/
RUN_FIRST = 1,
/**
* Invoke the object method handler in the third emission stage.
*/
RUN_LAST = 2,
/**
* Invoke the object method handler in the last emission stage.
*/
RUN_CLEANUP = 4,
/**
* Signals being emitted for an object while currently being in
* emission for this very object will not be emitted recursively,
* but instead cause the first emission to be restarted.
*/
NO_RECURSE = 8,
/**
* This signal supports "::detail" appendices to the signal name
* upon handler connections and emissions.
*/
DETAILED = 16,
/**
* Action signals are signals that may freely be emitted on alive
* objects from user code via g_signal_emit() and friends, without
* the need of being embedded into extra code that performs pre or
* post emission adjustments on the object. They can also be thought
* of as object methods which can be called generically by
* third-party code.
*/
ACTION = 32,
/**
* No emissions hooks are supported for this signal.
*/
NO_HOOKS = 64,
/**
* Varargs signal emission will always collect the
* arguments, even if there are no signal handlers connected. Since 2.30.
*/
MUST_COLLECT = 128,
/**
* The signal is deprecated and will be removed
* in a future version. A warning will be generated if it is connected while
* running with G_ENABLE_DIAGNOSTIC=1. Since 2.32.
*/
DEPRECATED = 256,
/**
* Only used in #GSignalAccumulator accumulator
* functions for the #GSignalInvocationHint::run_type field to mark the first
* call to the accumulator function for a signal emission. Since 2.68.
*/
ACCUMULATOR_FIRST_RUN = 131072,
}
alias GSignalFlags SignalFlags;
/**
* The match types specify what g_signal_handlers_block_matched(),
* g_signal_handlers_unblock_matched() and g_signal_handlers_disconnect_matched()
* match signals by.
*/
public enum GSignalMatchType
{
/**
* The signal id must be equal.
*/
ID = 1,
/**
* The signal detail must be equal.
*/
DETAIL = 2,
/**
* The closure must be the same.
*/
CLOSURE = 4,
/**
* The C closure callback must be the same.
*/
FUNC = 8,
/**
* The closure data must be the same.
*/
DATA = 16,
/**
* Only unblocked signals may be matched.
*/
UNBLOCKED = 32,
}
alias GSignalMatchType SignalMatchType;
/**
* These flags used to be passed to g_type_init_with_debug_flags() which
* is now deprecated.
*
* If you need to enable debugging features, use the GOBJECT_DEBUG
* environment variable.
*
* Deprecated: g_type_init() is now done automatically
*/
public enum GTypeDebugFlags
{
/**
* Print no messages
*/
NONE = 0,
/**
* Print messages about object bookkeeping
*/
OBJECTS = 1,
/**
* Print messages about signal emissions
*/
SIGNALS = 2,
/**
* Keep a count of instances of each type
*/
INSTANCE_COUNT = 4,
/**
* Mask covering all debug flags
*/
MASK = 7,
}
alias GTypeDebugFlags TypeDebugFlags;
/**
* Bit masks used to check or determine characteristics of a type.
*/
public enum GTypeFlags
{
/**
* Indicates an abstract type. No instances can be
* created for an abstract type
*/
ABSTRACT = 16,
/**
* Indicates an abstract value type, i.e. a type
* that introduces a value table, but can't be used for
* g_value_init()
*/
VALUE_ABSTRACT = 32,
/**
* Indicates a final type. A final type is a non-derivable
* leaf node in a deep derivable type hierarchy tree. Since: 2.70
*/
FINAL = 64,
}
alias GTypeFlags TypeFlags;
/**
* Bit masks used to check or determine specific characteristics of a
* fundamental type.
*/
public enum GTypeFundamentalFlags
{
/**
* Indicates a classed type
*/
CLASSED = 1,
/**
* Indicates an instantiatable type (implies classed)
*/
INSTANTIATABLE = 2,
/**
* Indicates a flat derivable type
*/
DERIVABLE = 4,
/**
* Indicates a deep derivable type (implies derivable)
*/
DEEP_DERIVABLE = 8,
}
alias GTypeFundamentalFlags TypeFundamentalFlags;
struct GBinding;
struct GBindingGroup;
/**
* A #GCClosure is a specialization of #GClosure for C function callbacks.
*/
struct GCClosure
{
/**
* the #GClosure
*/
GClosure closure;
/**
* the callback function
*/
void* callback;
}
struct GClosure
{
import std.bitmanip: bitfields;
mixin(bitfields!(
uint, "refCount", 15,
uint, "metaMarshalNouse", 1,
uint, "nGuards", 1,
uint, "nFnotifiers", 2,
uint, "nInotifiers", 8,
uint, "inInotify", 1,
uint, "floating", 1,
uint, "derivativeFlag", 1,
uint, "inMarshal", 1,
uint, "isInvalid", 1
));
/** */
extern(C) void function(GClosure* closure, GValue* returnValue, uint nParamValues, GValue* paramValues, void* invocationHint, void* marshalData) marshal;
void* data;
GClosureNotifyData* notifiers;
}
struct GClosureNotifyData
{
void* data;
GClosureNotify notify;
}
/**
* The class of an enumeration type holds information about its
* possible values.
*/
struct GEnumClass
{
/**
* the parent class
*/
GTypeClass gTypeClass;
/**
* the smallest possible value.
*/
int minimum;
/**
* the largest possible value.
*/
int maximum;
/**
* the number of possible values.
*/
uint nValues;
/**
* an array of #GEnumValue structs describing the
* individual values.
*/
GEnumValue* values;
}
/**
* A structure which contains a single enum value, its name, and its
* nickname.
*/
struct GEnumValue
{
/**
* the enum value
*/
int value;
/**
* the name of the value
*/
const(char)* valueName;
/**
* the nickname of the value
*/
const(char)* valueNick;
}
/**
* The class of a flags type holds information about its
* possible values.
*/
struct GFlagsClass
{
/**
* the parent class
*/
GTypeClass gTypeClass;
/**
* a mask covering all possible values.
*/
uint mask;
/**
* the number of possible values.
*/
uint nValues;
/**
* an array of #GFlagsValue structs describing the
* individual values.
*/
GFlagsValue* values;
}
/**
* A structure which contains a single flags value, its name, and its
* nickname.
*/
struct GFlagsValue
{
/**
* the flags value
*/
uint value;
/**
* the name of the value
*/
const(char)* valueName;
/**
* the nickname of the value
*/
const(char)* valueNick;
}
/**
* A structure that provides information to the type system which is
* used specifically for managing interface types.
*/
struct GInterfaceInfo
{
/**
* location of the interface initialization function
*/
GInterfaceInitFunc interfaceInit;
/**
* location of the interface finalization function
*/
GInterfaceFinalizeFunc interfaceFinalize;
/**
* user-supplied data passed to the interface init/finalize functions
*/
void* interfaceData;
}
struct GObject
{
GTypeInstance gTypeInstance;
uint refCount;
GData* qdata;
}
struct GObjectClass
{
/**
* the parent class
*/
GTypeClass gTypeClass;
GSList* constructProperties;
/** */
extern(C) GObject* function(GType type, uint nConstructProperties, GObjectConstructParam* constructProperties) constructor;
/** */
extern(C) void function(GObject* object, uint propertyId, GValue* value, GParamSpec* pspec) setProperty;
/** */
extern(C) void function(GObject* object, uint propertyId, GValue* value, GParamSpec* pspec) getProperty;
/** */
extern(C) void function(GObject* object) dispose;
/** */
extern(C) void function(GObject* object) finalize;
/** */
extern(C) void function(GObject* object, uint nPspecs, GParamSpec** pspecs) dispatchPropertiesChanged;
/** */
extern(C) void function(GObject* object, GParamSpec* pspec) notify;
/** */
extern(C) void function(GObject* object) constructed;
size_t flags;
void*[6] pdummy;
}
/**
* The GObjectConstructParam struct is an auxiliary structure used to hand
* #GParamSpec/#GValue pairs to the @constructor of a #GObjectClass.
*/
struct GObjectConstructParam
{
/**
* the #GParamSpec of the construct parameter
*/
GParamSpec* pspec;
/**
* the value to set the parameter to
*/
GValue* value;
}
struct GParamSpec
{
/**
* private #GTypeInstance portion
*/
GTypeInstance gTypeInstance;
/**
* name of this parameter: always an interned string
*/
const(char)* name;
/**
* #GParamFlags flags for this parameter
*/
GParamFlags flags;
/**
* the #GValue type for this parameter
*/
GType valueType;
/**
* #GType type that uses (introduces) this parameter
*/
GType ownerType;
char* Nick;
char* Blurb;
GData* qdata;
uint refCount;
uint paramId;
}
struct GParamSpecBoolean
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* default value for the property specified
*/
bool defaultValue;
}
struct GParamSpecBoxed
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
}
struct GParamSpecChar
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* minimum value for the property specified
*/
byte minimum;
/**
* maximum value for the property specified
*/
byte maximum;
/**
* default value for the property specified
*/
byte defaultValue;
}
/**
* The class structure for the GParamSpec type.
* Normally, GParamSpec classes are filled by
* g_param_type_register_static().
*/
struct GParamSpecClass
{
/**
* the parent class
*/
GTypeClass gTypeClass;
/**
* the #GValue type for this parameter
*/
GType valueType;
/** */
extern(C) void function(GParamSpec* pspec) finalize;
/** */
extern(C) void function(GParamSpec* pspec, GValue* value) valueSetDefault;
/** */
extern(C) int function(GParamSpec* pspec, GValue* value) valueValidate;
/** */
extern(C) int function(GParamSpec* pspec, GValue* value1, GValue* value2) valuesCmp;
void*[4] dummy;
}
struct GParamSpecDouble
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* minimum value for the property specified
*/
double minimum;
/**
* maximum value for the property specified
*/
double maximum;
/**
* default value for the property specified
*/
double defaultValue;
/**
* values closer than @epsilon will be considered identical
* by g_param_values_cmp(); the default value is 1e-90.
*/
double epsilon;
}
struct GParamSpecEnum
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* the #GEnumClass for the enum
*/
GEnumClass* enumClass;
/**
* default value for the property specified
*/
int defaultValue;
}
struct GParamSpecFlags
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* the #GFlagsClass for the flags
*/
GFlagsClass* flagsClass;
/**
* default value for the property specified
*/
uint defaultValue;
}
struct GParamSpecFloat
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* minimum value for the property specified
*/
float minimum;
/**
* maximum value for the property specified
*/
float maximum;
/**
* default value for the property specified
*/
float defaultValue;
/**
* values closer than @epsilon will be considered identical
* by g_param_values_cmp(); the default value is 1e-30.
*/
float epsilon;
}
struct GParamSpecGType
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* a #GType whose subtypes can occur as values
*/
GType isAType;
}
struct GParamSpecInt
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* minimum value for the property specified
*/
int minimum;
/**
* maximum value for the property specified
*/
int maximum;
/**
* default value for the property specified
*/
int defaultValue;
}
struct GParamSpecInt64
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* minimum value for the property specified
*/
long minimum;
/**
* maximum value for the property specified
*/
long maximum;
/**
* default value for the property specified
*/
long defaultValue;
}
struct GParamSpecLong
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* minimum value for the property specified
*/
glong minimum;
/**
* maximum value for the property specified
*/
glong maximum;
/**
* default value for the property specified
*/
glong defaultValue;
}
struct GParamSpecObject
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
}
struct GParamSpecOverride
{
GParamSpec parentInstance;
GParamSpec* overridden;
}
struct GParamSpecParam
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
}
struct GParamSpecPointer
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
}
struct GParamSpecPool;
struct GParamSpecString
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* default value for the property specified
*/
char* defaultValue;
/**
* a string containing the allowed values for the first byte
*/
char* csetFirst;
/**
* a string containing the allowed values for the subsequent bytes
*/
char* csetNth;
/**
* the replacement byte for bytes which don't match @cset_first or @cset_nth.
*/
char substitutor;
import std.bitmanip: bitfields;
mixin(bitfields!(
uint, "nullFoldIfEmpty", 1,
uint, "ensureNonNull", 1,
uint, "", 30
));
}
/**
* This structure is used to provide the type system with the information
* required to initialize and destruct (finalize) a parameter's class and
* instances thereof.
*
* The initialized structure is passed to the g_param_type_register_static()
* The type system will perform a deep copy of this structure, so its memory
* does not need to be persistent across invocation of
* g_param_type_register_static().
*/
struct GParamSpecTypeInfo
{
/**
* Size of the instance (object) structure.
*/
ushort instanceSize;
/**
* Prior to GLib 2.10, it specified the number of pre-allocated (cached) instances to reserve memory for (0 indicates no caching). Since GLib 2.10, it is ignored, since instances are allocated with the [slice allocator][glib-Memory-Slices] now.
*/
ushort nPreallocs;
/** */
extern(C) void function(GParamSpec* pspec) instanceInit;
/**
* The #GType of values conforming to this #GParamSpec
*/
GType valueType;
/** */
extern(C) void function(GParamSpec* pspec) finalize;
/** */
extern(C) void function(GParamSpec* pspec, GValue* value) valueSetDefault;
/** */
extern(C) int function(GParamSpec* pspec, GValue* value) valueValidate;
/** */
extern(C) int function(GParamSpec* pspec, GValue* value1, GValue* value2) valuesCmp;
}
struct GParamSpecUChar
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* minimum value for the property specified
*/
ubyte minimum;
/**
* maximum value for the property specified
*/
ubyte maximum;
/**
* default value for the property specified
*/
ubyte defaultValue;
}
struct GParamSpecUInt
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* minimum value for the property specified
*/
uint minimum;
/**
* maximum value for the property specified
*/
uint maximum;
/**
* default value for the property specified
*/
uint defaultValue;
}
struct GParamSpecUInt64
{
/**
* private #GParamSpec portion
*/
GParamSpec parentInstance;
/**
* minimum value for the property specified
*/
ulong minimum;
/**
* maximum value for the property specified
*/
ulong maximum;
/**
* default value for the property specified
*/