gecko/dom/bindings/test/TestBindingHeader.h
Boris Zbarsky 4e2b097bf2 Bug 792890. Fix JS-wrapping of callback interfaces to just return the underlying JS object. r=peterv
There are several changes here:

1) When wrapping a callback interface object for JS, just extract the
   underlying JSObject from inside it and hand that object out.

2) Flag callback interface descriptors as "not concrete" (only matters
   for cases when they have constants on the interface object) and not
   wrappercached (will catch bugs if someone tries to treat them as a
   Gecko object).

3) Fix a preexisting bug in sequence wrapping where we'd try to
   JS_DefineElement twice if we were wrapping a null value for a
   sequence of nullable interface objects.
2012-10-10 15:57:57 -04:00

659 lines
26 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/.
*/
#ifndef TestBindingHeader_h
#define TestBindingHeader_h
#include "nsWrapperCache.h"
#include "mozilla/ErrorResult.h"
#include "mozilla/dom/BindingUtils.h"
#include "mozilla/dom/TypedArray.h"
#include "nsCOMPtr.h"
// We don't export TestCodeGenBinding.h, but it's right in our parent dir.
#include "../TestCodeGenBinding.h"
#include "mozilla/dom/UnionTypes.h"
namespace mozilla {
namespace dom {
// IID for the TestNonCastableInterface
#define NS_TEST_NONCASTABLE_INTERFACE_IID \
{ 0x7c9f8ee2, 0xc9bf, 0x46ca, \
{ 0xa0, 0xa9, 0x03, 0xa8, 0xd6, 0x30, 0x0e, 0xde } }
class TestNonCastableInterface : public nsISupports,
public nsWrapperCache
{
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_TEST_NONCASTABLE_INTERFACE_IID)
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
};
// IID for the IndirectlyImplementedInterface
#define NS_INDIRECTLY_IMPLEMENTED_INTERFACE_IID \
{ 0xfed55b69, 0x7012, 0x4849, \
{ 0xaf, 0x56, 0x4b, 0xa9, 0xee, 0x41, 0x30, 0x89 } }
class IndirectlyImplementedInterface : public nsISupports,
public nsWrapperCache
{
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_INDIRECTLY_IMPLEMENTED_INTERFACE_IID)
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
bool IndirectlyImplementedProperty();
void IndirectlyImplementedProperty(bool);
void IndirectlyImplementedMethod();
};
// IID for the TestExternalInterface
#define NS_TEST_EXTERNAL_INTERFACE_IID \
{ 0xd5ba0c99, 0x9b1d, 0x4e71, \
{ 0x8a, 0x94, 0x56, 0x38, 0x6c, 0xa3, 0xda, 0x3d } }
class TestExternalInterface : public nsISupports
{
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_TEST_EXTERNAL_INTERFACE_IID)
NS_DECL_ISUPPORTS
};
// IID for the TestCallbackInterface
#define NS_TEST_CALLBACK_INTERFACE_IID \
{ 0xbf711ba4, 0xc8f6, 0x46cf, \
{ 0xba, 0x5b, 0xaa, 0xe2, 0x78, 0x18, 0xe6, 0x4a } }
class TestCallbackInterface : public nsISupports
{
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_TEST_CALLBACK_INTERFACE_IID)
NS_DECL_ISUPPORTS
};
class TestNonWrapperCacheInterface : public nsISupports
{
public:
NS_DECL_ISUPPORTS
virtual JSObject* WrapObject(JSContext* cx, JSObject* scope);
};
class OnlyForUseInConstructor : public nsISupports,
public nsWrapperCache
{
public:
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
};
class TestInterface : public nsISupports,
public nsWrapperCache
{
public:
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
// And now our actual WebIDL API
// Constructors
static
already_AddRefed<TestInterface> Constructor(nsISupports*, ErrorResult&);
static
already_AddRefed<TestInterface> Constructor(nsISupports*, const nsAString&,
ErrorResult&);
static
already_AddRefed<TestInterface> Constructor(nsISupports*, uint32_t,
Nullable<bool>&, ErrorResult&);
static
already_AddRefed<TestInterface> Constructor(nsISupports*, TestInterface*,
ErrorResult&);
static
already_AddRefed<TestInterface> Constructor(nsISupports*,
TestNonCastableInterface&,
ErrorResult&);
/* static
already_AddRefed<TestInterface> Constructor(nsISupports*,
uint32_t, uint32_t,
const TestInterfaceOrOnlyForUseInConstructor&,
ErrorResult&);
*/
// Integer types
int8_t ReadonlyByte();
int8_t WritableByte();
void SetWritableByte(int8_t);
void PassByte(int8_t);
int8_t ReceiveByte();
void PassOptionalByte(const Optional<int8_t>&);
void PassOptionalByteWithDefault(int8_t);
void PassNullableByte(Nullable<int8_t>&);
void PassOptionalNullableByte(const Optional< Nullable<int8_t> >&);
int16_t ReadonlyShort();
int16_t WritableShort();
void SetWritableShort(int16_t);
void PassShort(int16_t);
int16_t ReceiveShort();
void PassOptionalShort(const Optional<int16_t>&);
void PassOptionalShortWithDefault(int16_t);
int32_t ReadonlyLong();
int32_t WritableLong();
void SetWritableLong(int32_t);
void PassLong(int32_t);
int16_t ReceiveLong();
void PassOptionalLong(const Optional<int32_t>&);
void PassOptionalLongWithDefault(int32_t);
int64_t ReadonlyLongLong();
int64_t WritableLongLong();
void SetWritableLongLong(int64_t);
void PassLongLong(int64_t);
int64_t ReceiveLongLong();
void PassOptionalLongLong(const Optional<int64_t>&);
void PassOptionalLongLongWithDefault(int64_t);
uint8_t ReadonlyOctet();
uint8_t WritableOctet();
void SetWritableOctet(uint8_t);
void PassOctet(uint8_t);
uint8_t ReceiveOctet();
void PassOptionalOctet(const Optional<uint8_t>&);
void PassOptionalOctetWithDefault(uint8_t);
uint16_t ReadonlyUnsignedShort();
uint16_t WritableUnsignedShort();
void SetWritableUnsignedShort(uint16_t);
void PassUnsignedShort(uint16_t);
uint16_t ReceiveUnsignedShort();
void PassOptionalUnsignedShort(const Optional<uint16_t>&);
void PassOptionalUnsignedShortWithDefault(uint16_t);
uint32_t ReadonlyUnsignedLong();
uint32_t WritableUnsignedLong();
void SetWritableUnsignedLong(uint32_t);
void PassUnsignedLong(uint32_t);
uint32_t ReceiveUnsignedLong();
void PassOptionalUnsignedLong(const Optional<uint32_t>&);
void PassOptionalUnsignedLongWithDefault(uint32_t);
uint64_t ReadonlyUnsignedLongLong();
uint64_t WritableUnsignedLongLong();
void SetWritableUnsignedLongLong(uint64_t);
void PassUnsignedLongLong(uint64_t);
uint64_t ReceiveUnsignedLongLong();
void PassOptionalUnsignedLongLong(const Optional<uint64_t>&);
void PassOptionalUnsignedLongLongWithDefault(uint64_t);
// Interface types
already_AddRefed<TestInterface> ReceiveSelf();
already_AddRefed<TestInterface> ReceiveNullableSelf();
TestInterface* ReceiveWeakSelf();
TestInterface* ReceiveWeakNullableSelf();
void PassSelf(TestInterface&);
void PassSelf2(NonNull<TestInterface>&);
void PassNullableSelf(TestInterface*);
already_AddRefed<TestInterface> NonNullSelf();
void SetNonNullSelf(TestInterface&);
already_AddRefed<TestInterface> GetNullableSelf();
void SetNullableSelf(TestInterface*);
void PassOptionalSelf(const Optional<TestInterface*> &);
void PassOptionalNonNullSelf(const Optional<NonNull<TestInterface> >&);
void PassOptionalSelfWithDefault(TestInterface*);
already_AddRefed<TestNonWrapperCacheInterface> ReceiveNonWrapperCacheInterface();
already_AddRefed<TestNonWrapperCacheInterface> ReceiveNullableNonWrapperCacheInterface();
void ReceiveNonWrapperCacheInterfaceSequence(nsTArray<nsRefPtr<TestNonWrapperCacheInterface> >&);
void ReceiveNullableNonWrapperCacheInterfaceSequence(nsTArray<nsRefPtr<TestNonWrapperCacheInterface> >&);
void ReceiveNonWrapperCacheInterfaceNullableSequence(Nullable<nsTArray<nsRefPtr<TestNonWrapperCacheInterface> > >&);
void ReceiveNullableNonWrapperCacheInterfaceNullableSequence(Nullable<nsTArray<nsRefPtr<TestNonWrapperCacheInterface> > >&);
already_AddRefed<TestNonCastableInterface> ReceiveOther();
already_AddRefed<TestNonCastableInterface> ReceiveNullableOther();
TestNonCastableInterface* ReceiveWeakOther();
TestNonCastableInterface* ReceiveWeakNullableOther();
void PassOther(TestNonCastableInterface&);
void PassOther2(NonNull<TestNonCastableInterface>&);
void PassNullableOther(TestNonCastableInterface*);
already_AddRefed<TestNonCastableInterface> NonNullOther();
void SetNonNullOther(TestNonCastableInterface&);
already_AddRefed<TestNonCastableInterface> GetNullableOther();
void SetNullableOther(TestNonCastableInterface*);
void PassOptionalOther(const Optional<TestNonCastableInterface*>&);
void PassOptionalNonNullOther(const Optional<NonNull<TestNonCastableInterface> >&);
void PassOptionalOtherWithDefault(TestNonCastableInterface*);
already_AddRefed<TestExternalInterface> ReceiveExternal();
already_AddRefed<TestExternalInterface> ReceiveNullableExternal();
TestExternalInterface* ReceiveWeakExternal();
TestExternalInterface* ReceiveWeakNullableExternal();
void PassExternal(TestExternalInterface*);
void PassExternal2(TestExternalInterface*);
void PassNullableExternal(TestExternalInterface*);
already_AddRefed<TestExternalInterface> NonNullExternal();
void SetNonNullExternal(TestExternalInterface*);
already_AddRefed<TestExternalInterface> GetNullableExternal();
void SetNullableExternal(TestExternalInterface*);
void PassOptionalExternal(const Optional<TestExternalInterface*>&);
void PassOptionalNonNullExternal(const Optional<TestExternalInterface*>&);
void PassOptionalExternalWithDefault(TestExternalInterface*);
already_AddRefed<TestCallbackInterface> ReceiveCallbackInterface();
already_AddRefed<TestCallbackInterface> ReceiveNullableCallbackInterface();
TestCallbackInterface* ReceiveWeakCallbackInterface();
TestCallbackInterface* ReceiveWeakNullableCallbackInterface();
void PassCallbackInterface(TestCallbackInterface&);
void PassCallbackInterface2(OwningNonNull<TestCallbackInterface>);
void PassNullableCallbackInterface(TestCallbackInterface*);
already_AddRefed<TestCallbackInterface> NonNullCallbackInterface();
void SetNonNullCallbackInterface(TestCallbackInterface&);
already_AddRefed<TestCallbackInterface> GetNullableCallbackInterface();
void SetNullableCallbackInterface(TestCallbackInterface*);
void PassOptionalCallbackInterface(const Optional<nsRefPtr<TestCallbackInterface> >&);
void PassOptionalNonNullCallbackInterface(const Optional<OwningNonNull<TestCallbackInterface> >&);
void PassOptionalCallbackInterfaceWithDefault(TestCallbackInterface*);
already_AddRefed<IndirectlyImplementedInterface> ReceiveConsequentialInterface();
void PassConsequentialInterface(IndirectlyImplementedInterface&);
// Sequence types
void ReceiveSequence(nsTArray<int32_t>&);
void ReceiveNullableSequence(Nullable< nsTArray<int32_t> >&);
void ReceiveSequenceOfNullableInts(nsTArray< Nullable<int32_t> >&);
void ReceiveNullableSequenceOfNullableInts(Nullable< nsTArray< Nullable<int32_t> > >&);
void PassSequence(const Sequence<int32_t> &);
void PassNullableSequence(const Nullable< Sequence<int32_t> >&);
void PassSequenceOfNullableInts(const Sequence<Nullable<int32_t> >&);
void PassOptionalSequenceOfNullableInts(const Optional<Sequence<Nullable<int32_t> > > &);
void PassOptionalNullableSequenceOfNullableInts(const Optional<Nullable<Sequence<Nullable<int32_t> > > > &);
void ReceiveCastableObjectSequence(nsTArray< nsRefPtr<TestInterface> > &);
void ReceiveCallbackObjectSequence(nsTArray< nsRefPtr<TestCallbackInterface> > &);
void ReceiveNullableCastableObjectSequence(nsTArray< nsRefPtr<TestInterface> > &);
void ReceiveNullableCallbackObjectSequence(nsTArray< nsRefPtr<TestCallbackInterface> > &);
void ReceiveCastableObjectNullableSequence(Nullable< nsTArray< nsRefPtr<TestInterface> > >&);
void ReceiveNullableCastableObjectNullableSequence(Nullable< nsTArray< nsRefPtr<TestInterface> > >&);
void ReceiveWeakCastableObjectSequence(nsTArray<TestInterface*> &);
void ReceiveWeakNullableCastableObjectSequence(nsTArray<TestInterface*> &);
void ReceiveWeakCastableObjectNullableSequence(Nullable< nsTArray<TestInterface*> >&);
void ReceiveWeakNullableCastableObjectNullableSequence(Nullable< nsTArray<TestInterface*> >&);
void PassCastableObjectSequence(const Sequence< OwningNonNull<TestInterface> >&);
void PassNullableCastableObjectSequence(const Sequence< nsRefPtr<TestInterface> > &);
void PassCastableObjectNullableSequence(const Nullable< Sequence< OwningNonNull<TestInterface> > >&);
void PassNullableCastableObjectNullableSequence(const Nullable< Sequence< nsRefPtr<TestInterface> > >&);
void PassOptionalSequence(const Optional<Sequence<int32_t> >&);
void PassOptionalNullableSequence(const Optional<Nullable<Sequence<int32_t> > >&);
void PassOptionalNullableSequenceWithDefaultValue(const Nullable< Sequence<int32_t> >&);
void PassOptionalObjectSequence(const Optional<Sequence<OwningNonNull<TestInterface> > >&);
void ReceiveStringSequence(nsTArray<nsString>&);
void PassStringSequence(const Sequence<nsString>&);
void ReceiveAnySequence(JSContext*, nsTArray<JS::Value>&);
void ReceiveNullableAnySequence(JSContext*, Nullable<nsTArray<JS::Value> >);
// Typed array types
void PassArrayBuffer(ArrayBuffer&);
void PassNullableArrayBuffer(ArrayBuffer*);
void PassOptionalArrayBuffer(const Optional<ArrayBuffer>&);
void PassOptionalNullableArrayBuffer(const Optional<ArrayBuffer*>&);
void PassOptionalNullableArrayBufferWithDefaultValue(ArrayBuffer*);
void PassArrayBufferView(ArrayBufferView&);
void PassInt8Array(Int8Array&);
void PassInt16Array(Int16Array&);
void PassInt32Array(Int32Array&);
void PassUint8Array(Uint8Array&);
void PassUint16Array(Uint16Array&);
void PassUint32Array(Uint32Array&);
void PassUint8ClampedArray(Uint8ClampedArray&);
void PassFloat32Array(Float32Array&);
void PassFloat64Array(Float64Array&);
JSObject* ReceiveUint8Array(JSContext*);
// String types
void PassString(const nsAString&);
void PassNullableString(const nsAString&);
void PassOptionalString(const Optional<nsAString>&);
void PassOptionalStringWithDefaultValue(const nsAString&);
void PassOptionalNullableString(const Optional<nsAString>&);
void PassOptionalNullableStringWithDefaultValue(const nsAString&);
// Enumarated types
void PassEnum(TestEnum);
void PassOptionalEnum(const Optional<TestEnum>&);
void PassEnumWithDefault(TestEnum);
TestEnum ReceiveEnum();
TestEnum EnumAttribute();
TestEnum ReadonlyEnumAttribute();
void SetEnumAttribute(TestEnum);
// Callback types
void PassCallback(JSContext*, JSObject&);
void PassNullableCallback(JSContext*, JSObject*);
void PassOptionalCallback(JSContext*, const Optional<NonNull<JSObject> >&);
void PassOptionalNullableCallback(JSContext*, const Optional<JSObject*>&);
void PassOptionalNullableCallbackWithDefaultValue(JSContext*, JSObject*);
JSObject* ReceiveCallback(JSContext*);
JSObject* ReceiveNullableCallback(JSContext*);
void PassNullableTreatAsNullCallback(JSContext*, JSObject*);
void PassOptionalNullableTreatAsNullCallback(JSContext*, const Optional<JSObject*>&);
void PassOptionalNullableTreatAsNullCallbackWithDefaultValue(JSContext*, JSObject*);
// Any types
void PassAny(JSContext*, JS::Value);
void PassOptionalAny(JSContext*, const Optional<JS::Value>&);
void PassAnyDefaultNull(JSContext*, JS::Value);
JS::Value ReceiveAny(JSContext*);
// object types
void PassObject(JSContext*, JSObject&);
void PassNullableObject(JSContext*, JSObject*);
void PassOptionalObject(JSContext*, const Optional<NonNull<JSObject> >&);
void PassOptionalNullableObject(JSContext*, const Optional<JSObject*>&);
void PassOptionalNullableObjectWithDefaultValue(JSContext*, JSObject*);
JSObject* ReceiveObject(JSContext*);
JSObject* ReceiveNullableObject(JSContext*);
// Union types
void PassUnion(JSContext*, const ObjectOrLong& arg);
void PassUnionWithNullable(JSContext*, const ObjectOrNullOrLong& arg)
{
ObjectOrLong returnValue;
if (arg.IsNull()) {
} else if (arg.IsObject()) {
JSObject& obj = (JSObject&)arg.GetAsObject();
JS_GetClass(&obj);
//returnValue.SetAsObject(&obj);
} else {
int32_t i = arg.GetAsLong();
i += 1;
}
}
void PassNullableUnion(JSContext*, const Nullable<ObjectOrLong>&);
void PassOptionalUnion(JSContext*, const Optional<ObjectOrLong>&);
void PassOptionalNullableUnion(JSContext*, const Optional<Nullable<ObjectOrLong> >&);
void PassOptionalNullableUnionWithDefaultValue(JSContext*, const Nullable<ObjectOrLong>&);
//void PassUnionWithInterfaces(const TestInterfaceOrTestExternalInterface& arg);
//void PassUnionWithInterfacesAndNullable(const TestInterfaceOrNullOrTestExternalInterface& arg);
void PassUnionWithArrayBuffer(const ArrayBufferOrLong&);
void PassUnionWithString(JSContext*, const StringOrObject&);
//void PassUnionWithEnum(JSContext*, const TestEnumOrObject&);
void PassUnionWithCallback(JSContext*, const TestCallbackOrLong&);
void PassUnionWithObject(JSContext*, const ObjectOrLong&);
// binaryNames tests
void MethodRenamedTo();
void MethodRenamedTo(int8_t);
int8_t AttributeGetterRenamedTo();
int8_t AttributeRenamedTo();
void SetAttributeRenamedTo(int8_t);
// Dictionary tests
void PassDictionary(const Dict&);
void PassOtherDictionary(const GrandparentDict&);
void PassSequenceOfDictionaries(const Sequence<Dict>&);
void PassDictionaryOrLong(const Dict&);
void PassDictionaryOrLong(int32_t);
void PassDictContainingDict(const DictContainingDict&);
void PassDictContainingSequence(const DictContainingSequence&);
// Typedefs
void ExerciseTypedefInterfaces1(TestInterface&);
already_AddRefed<TestInterface> ExerciseTypedefInterfaces2(TestInterface*);
void ExerciseTypedefInterfaces3(TestInterface&);
// Miscellania
int32_t AttrWithLenientThis();
void SetAttrWithLenientThis(int32_t);
// Methods and properties imported via "implements"
bool ImplementedProperty();
void SetImplementedProperty(bool);
void ImplementedMethod();
bool ImplementedParentProperty();
void SetImplementedParentProperty(bool);
void ImplementedParentMethod();
bool IndirectlyImplementedProperty();
void SetIndirectlyImplementedProperty(bool);
void IndirectlyImplementedMethod();
uint32_t DiamondImplementedProperty();
// Test EnforceRange/Clamp
void DontEnforceRangeOrClamp(int8_t);
void DoEnforceRange(int8_t);
void DoClamp(int8_t);
private:
// We add signatures here that _could_ start matching if the codegen
// got data types wrong. That way if it ever does we'll have a call
// to these private deleted methods and compilation will fail.
void SetReadonlyByte(int8_t) MOZ_DELETE;
template<typename T>
void SetWritableByte(T) MOZ_DELETE;
template<typename T>
void PassByte(T) MOZ_DELETE;
template<typename T>
void PassOptionalByte(const Optional<T>&) MOZ_DELETE;
template<typename T>
void PassOptionalByteWithDefault(T) MOZ_DELETE;
void SetReadonlyShort(int16_t) MOZ_DELETE;
template<typename T>
void SetWritableShort(T) MOZ_DELETE;
template<typename T>
void PassShort(T) MOZ_DELETE;
template<typename T>
void PassOptionalShort(const Optional<T>&) MOZ_DELETE;
template<typename T>
void PassOptionalShortWithDefault(T) MOZ_DELETE;
void SetReadonlyLong(int32_t) MOZ_DELETE;
template<typename T>
void SetWritableLong(T) MOZ_DELETE;
template<typename T>
void PassLong(T) MOZ_DELETE;
template<typename T>
void PassOptionalLong(const Optional<T>&) MOZ_DELETE;
template<typename T>
void PassOptionalLongWithDefault(T) MOZ_DELETE;
void SetReadonlyLongLong(int64_t) MOZ_DELETE;
template<typename T>
void SetWritableLongLong(T) MOZ_DELETE;
template<typename T>
void PassLongLong(T) MOZ_DELETE;
template<typename T>
void PassOptionalLongLong(const Optional<T>&) MOZ_DELETE;
template<typename T>
void PassOptionalLongLongWithDefault(T) MOZ_DELETE;
void SetReadonlyOctet(uint8_t) MOZ_DELETE;
template<typename T>
void SetWritableOctet(T) MOZ_DELETE;
template<typename T>
void PassOctet(T) MOZ_DELETE;
template<typename T>
void PassOptionalOctet(const Optional<T>&) MOZ_DELETE;
template<typename T>
void PassOptionalOctetWithDefault(T) MOZ_DELETE;
void SetReadonlyUnsignedShort(uint16_t) MOZ_DELETE;
template<typename T>
void SetWritableUnsignedShort(T) MOZ_DELETE;
template<typename T>
void PassUnsignedShort(T) MOZ_DELETE;
template<typename T>
void PassOptionalUnsignedShort(const Optional<T>&) MOZ_DELETE;
template<typename T>
void PassOptionalUnsignedShortWithDefault(T) MOZ_DELETE;
void SetReadonlyUnsignedLong(uint32_t) MOZ_DELETE;
template<typename T>
void SetWritableUnsignedLong(T) MOZ_DELETE;
template<typename T>
void PassUnsignedLong(T) MOZ_DELETE;
template<typename T>
void PassOptionalUnsignedLong(const Optional<T>&) MOZ_DELETE;
template<typename T>
void PassOptionalUnsignedLongWithDefault(T) MOZ_DELETE;
void SetReadonlyUnsignedLongLong(uint64_t) MOZ_DELETE;
template<typename T>
void SetWritableUnsignedLongLong(T) MOZ_DELETE;
template<typename T>
void PassUnsignedLongLong(T) MOZ_DELETE;
template<typename T>
void PassOptionalUnsignedLongLong(const Optional<T>&) MOZ_DELETE;
template<typename T>
void PassOptionalUnsignedLongLongWithDefault(T) MOZ_DELETE;
// Enforce that only const things are passed for sequences
void PassSequence(Sequence<int32_t> &) MOZ_DELETE;
void PassNullableSequence(Nullable< Sequence<int32_t> >&) MOZ_DELETE;
void PassOptionalNullableSequenceWithDefaultValue(Nullable< Sequence<int32_t> >&) MOZ_DELETE;
// Enforce that only const things are passed for optional
void PassOptionalByte(Optional<int8_t>&) MOZ_DELETE;
void PassOptionalNullableByte(Optional<Nullable<int8_t> >&) MOZ_DELETE;
void PassOptionalShort(Optional<int16_t>&) MOZ_DELETE;
void PassOptionalLong(Optional<int32_t>&) MOZ_DELETE;
void PassOptionalLongLong(Optional<int64_t>&) MOZ_DELETE;
void PassOptionalOctet(Optional<uint8_t>&) MOZ_DELETE;
void PassOptionalUnsignedShort(Optional<uint16_t>&) MOZ_DELETE;
void PassOptionalUnsignedLong(Optional<uint32_t>&) MOZ_DELETE;
void PassOptionalUnsignedLongLong(Optional<uint64_t>&) MOZ_DELETE;
void PassOptionalSelf(Optional<TestInterface*> &) MOZ_DELETE;
void PassOptionalNonNullSelf(Optional<NonNull<TestInterface> >&) MOZ_DELETE;
void PassOptionalOther(Optional<TestNonCastableInterface*>&);
void PassOptionalNonNullOther(Optional<NonNull<TestNonCastableInterface> >&);
void PassOptionalExternal(Optional<TestExternalInterface*>&) MOZ_DELETE;
void PassOptionalNonNullExternal(Optional<TestExternalInterface*>&) MOZ_DELETE;
void PassOptionalSequence(Optional<Sequence<int32_t> >&) MOZ_DELETE;
void PassOptionalNullableSequence(Optional<Nullable<Sequence<int32_t> > >&) MOZ_DELETE;
void PassOptionalObjectSequence(Optional<Sequence<OwningNonNull<TestInterface> > >&) MOZ_DELETE;
void PassOptionalArrayBuffer(Optional<ArrayBuffer>&) MOZ_DELETE;
void PassOptionalNullableArrayBuffer(Optional<ArrayBuffer*>&) MOZ_DELETE;
void PassOptionalEnum(Optional<TestEnum>&) MOZ_DELETE;
void PassOptionalCallback(JSContext*, Optional<JSObject*>&) MOZ_DELETE;
void PassOptionalNullableCallback(JSContext*, Optional<JSObject*>&) MOZ_DELETE;
void PassOptionalAny(Optional<JS::Value>&) MOZ_DELETE;
// And test that string stuff is always const
void PassString(nsAString&) MOZ_DELETE;
void PassNullableString(nsAString&) MOZ_DELETE;
void PassOptionalString(Optional<nsAString>&) MOZ_DELETE;
void PassOptionalStringWithDefaultValue(nsAString&) MOZ_DELETE;
void PassOptionalNullableString(Optional<nsAString>&) MOZ_DELETE;
void PassOptionalNullableStringWithDefaultValue(nsAString&) MOZ_DELETE;
};
class TestIndexedGetterInterface : public nsISupports,
public nsWrapperCache
{
public:
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
uint32_t IndexedGetter(uint32_t, bool&);
uint32_t IndexedGetter(uint32_t&) MOZ_DELETE;
uint32_t Item(uint32_t&);
uint32_t Item(uint32_t, bool&) MOZ_DELETE;
uint32_t Length();
};
class TestNamedGetterInterface : public nsISupports,
public nsWrapperCache
{
public:
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
void NamedGetter(const nsAString&, bool&, nsAString&);
};
class TestIndexedAndNamedGetterInterface : public nsISupports,
public nsWrapperCache
{
public:
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
uint32_t IndexedGetter(uint32_t, bool&);
void NamedGetter(const nsAString&, bool&, nsAString&);
void NamedItem(const nsAString&, nsAString&);
uint32_t Length();
};
class TestIndexedSetterInterface : public nsISupports,
public nsWrapperCache
{
public:
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
void IndexedSetter(uint32_t, const nsAString&);
void SetItem(uint32_t, const nsAString&);
};
class TestNamedSetterInterface : public nsISupports,
public nsWrapperCache
{
public:
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
void NamedSetter(const nsAString&, TestIndexedSetterInterface&);
};
class TestIndexedAndNamedSetterInterface : public nsISupports,
public nsWrapperCache
{
public:
NS_DECL_ISUPPORTS
// We need a GetParentObject to make binding codegen happy
virtual nsISupports* GetParentObject();
void IndexedSetter(uint32_t, TestIndexedSetterInterface&);
void NamedSetter(const nsAString&, TestIndexedSetterInterface&);
void SetNamedItem(const nsAString&, TestIndexedSetterInterface&);
};
class TestIndexedAndNamedGetterAndSetterInterface : public TestIndexedSetterInterface
{
public:
uint32_t IndexedGetter(uint32_t, bool&);
uint32_t Item(uint32_t);
void NamedGetter(const nsAString&, bool&, nsAString&);
void NamedItem(const nsAString&, nsAString&);
void IndexedSetter(uint32_t, int32_t&);
void IndexedSetter(uint32_t, const nsAString&) MOZ_DELETE;
void NamedSetter(const nsAString&, const nsAString&);
void Stringify(nsAString&);
uint32_t Length();
};
} // namespace dom
} // namespace mozilla
#endif /* TestBindingHeader_h */