cef/include/base/cef_tuple.h

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Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
// Copyright (c) 2014 Marshall A. Greenblatt. Portions copyright (c) 2011
// Google Inc. All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the name Chromium Embedded
// Framework nor the names of its contributors may be used to endorse
// or promote products derived from this software without specific prior
// written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// A Tuple is a generic templatized container, similar in concept to std::pair.
// There are classes Tuple0 to Tuple6, cooresponding to the number of elements
// it contains. The convenient MakeTuple() function takes 0 to 6 arguments,
// and will construct and return the appropriate Tuple object. The functions
// DispatchToMethod and DispatchToFunction take a function pointer or instance
// and method pointer, and unpack a tuple into arguments to the call.
//
// Tuple elements are copied by value, and stored in the tuple. See the unit
// tests for more details of how/when the values are copied.
//
// Example usage:
// // These two methods of creating a Tuple are identical.
// Tuple2<int, const char*> tuple_a(1, "wee");
// Tuple2<int, const char*> tuple_b = MakeTuple(1, "wee");
//
// void SomeFunc(int a, const char* b) { }
// DispatchToFunction(&SomeFunc, tuple_a); // SomeFunc(1, "wee")
// DispatchToFunction(
// &SomeFunc, MakeTuple(10, "foo")); // SomeFunc(10, "foo")
//
// struct { void SomeMeth(int a, int b, int c) { } } foo;
// DispatchToMethod(&foo, &Foo::SomeMeth, MakeTuple(1, 2, 3));
// // foo->SomeMeth(1, 2, 3);
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
#ifndef CEF_INCLUDE_BASE_CEF_TUPLE_H_
#define CEF_INCLUDE_BASE_CEF_TUPLE_H_
#pragma once
#if defined(BASE_TUPLE_H_)
// Do nothing if the Chromium header has already been included.
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
// This can happen in cases where Chromium code is used directly by the
// client application. When using Chromium code directly always include
// the Chromium header first to avoid type conflicts.
#elif defined(USING_CHROMIUM_INCLUDES)
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
// When building CEF include the Chromium header directly.
#include "base/tuple.h"
#else // !USING_CHROMIUM_INCLUDES
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
// The following is substantially similar to the Chromium implementation.
// If the Chromium implementation diverges the below implementation should be
// updated to match.
#include "include/base/cef_bind_helpers.h"
namespace base {
// Traits ----------------------------------------------------------------------
//
// A simple traits class for tuple arguments.
//
// ValueType: the bare, nonref version of a type (same as the type for nonrefs).
// RefType: the ref version of a type (same as the type for refs).
// ParamType: what type to pass to functions (refs should not be constified).
template <class P>
struct TupleTraits {
typedef P ValueType;
typedef P& RefType;
typedef const P& ParamType;
};
template <class P>
struct TupleTraits<P&> {
typedef P ValueType;
typedef P& RefType;
typedef P& ParamType;
};
template <class P>
struct TupleTypes {};
// Tuple -----------------------------------------------------------------------
//
// This set of classes is useful for bundling 0 or more heterogeneous data types
// into a single variable. The advantage of this is that it greatly simplifies
// function objects that need to take an arbitrary number of parameters; see
// RunnableMethod and IPC::MessageWithTuple.
//
// Tuple0 is supplied to act as a 'void' type. It can be used, for example,
// when dispatching to a function that accepts no arguments (see the
// Dispatchers below).
// Tuple1<A> is rarely useful. One such use is when A is non-const ref that you
// want filled by the dispatchee, and the tuple is merely a container for that
// output (a "tier"). See MakeRefTuple and its usages.
struct Tuple0 {
typedef Tuple0 ValueTuple;
typedef Tuple0 RefTuple;
typedef Tuple0 ParamTuple;
};
template <class A>
struct Tuple1 {
public:
typedef A TypeA;
Tuple1() {}
explicit Tuple1(typename TupleTraits<A>::ParamType a) : a(a) {}
A a;
};
template <class A, class B>
struct Tuple2 {
public:
typedef A TypeA;
typedef B TypeB;
Tuple2() {}
Tuple2(typename TupleTraits<A>::ParamType a,
typename TupleTraits<B>::ParamType b)
: a(a), b(b) {}
A a;
B b;
};
template <class A, class B, class C>
struct Tuple3 {
public:
typedef A TypeA;
typedef B TypeB;
typedef C TypeC;
Tuple3() {}
Tuple3(typename TupleTraits<A>::ParamType a,
typename TupleTraits<B>::ParamType b,
typename TupleTraits<C>::ParamType c)
: a(a), b(b), c(c) {}
A a;
B b;
C c;
};
template <class A, class B, class C, class D>
struct Tuple4 {
public:
typedef A TypeA;
typedef B TypeB;
typedef C TypeC;
typedef D TypeD;
Tuple4() {}
Tuple4(typename TupleTraits<A>::ParamType a,
typename TupleTraits<B>::ParamType b,
typename TupleTraits<C>::ParamType c,
typename TupleTraits<D>::ParamType d)
: a(a), b(b), c(c), d(d) {}
A a;
B b;
C c;
D d;
};
template <class A, class B, class C, class D, class E>
struct Tuple5 {
public:
typedef A TypeA;
typedef B TypeB;
typedef C TypeC;
typedef D TypeD;
typedef E TypeE;
Tuple5() {}
Tuple5(typename TupleTraits<A>::ParamType a,
typename TupleTraits<B>::ParamType b,
typename TupleTraits<C>::ParamType c,
typename TupleTraits<D>::ParamType d,
typename TupleTraits<E>::ParamType e)
: a(a), b(b), c(c), d(d), e(e) {}
A a;
B b;
C c;
D d;
E e;
};
template <class A, class B, class C, class D, class E, class F>
struct Tuple6 {
public:
typedef A TypeA;
typedef B TypeB;
typedef C TypeC;
typedef D TypeD;
typedef E TypeE;
typedef F TypeF;
Tuple6() {}
Tuple6(typename TupleTraits<A>::ParamType a,
typename TupleTraits<B>::ParamType b,
typename TupleTraits<C>::ParamType c,
typename TupleTraits<D>::ParamType d,
typename TupleTraits<E>::ParamType e,
typename TupleTraits<F>::ParamType f)
: a(a), b(b), c(c), d(d), e(e), f(f) {}
A a;
B b;
C c;
D d;
E e;
F f;
};
template <class A, class B, class C, class D, class E, class F, class G>
struct Tuple7 {
public:
typedef A TypeA;
typedef B TypeB;
typedef C TypeC;
typedef D TypeD;
typedef E TypeE;
typedef F TypeF;
typedef G TypeG;
Tuple7() {}
Tuple7(typename TupleTraits<A>::ParamType a,
typename TupleTraits<B>::ParamType b,
typename TupleTraits<C>::ParamType c,
typename TupleTraits<D>::ParamType d,
typename TupleTraits<E>::ParamType e,
typename TupleTraits<F>::ParamType f,
typename TupleTraits<G>::ParamType g)
: a(a), b(b), c(c), d(d), e(e), f(f), g(g) {}
A a;
B b;
C c;
D d;
E e;
F f;
G g;
};
template <class A,
class B,
class C,
class D,
class E,
class F,
class G,
class H>
struct Tuple8 {
public:
typedef A TypeA;
typedef B TypeB;
typedef C TypeC;
typedef D TypeD;
typedef E TypeE;
typedef F TypeF;
typedef G TypeG;
typedef H TypeH;
Tuple8() {}
Tuple8(typename TupleTraits<A>::ParamType a,
typename TupleTraits<B>::ParamType b,
typename TupleTraits<C>::ParamType c,
typename TupleTraits<D>::ParamType d,
typename TupleTraits<E>::ParamType e,
typename TupleTraits<F>::ParamType f,
typename TupleTraits<G>::ParamType g,
typename TupleTraits<H>::ParamType h)
: a(a), b(b), c(c), d(d), e(e), f(f), g(g), h(h) {}
A a;
B b;
C c;
D d;
E e;
F f;
G g;
H h;
};
// Tuple types ----------------------------------------------------------------
//
// Allows for selection of ValueTuple/RefTuple/ParamTuple without needing the
// definitions of class types the tuple takes as parameters.
template <>
struct TupleTypes<Tuple0> {
typedef Tuple0 ValueTuple;
typedef Tuple0 RefTuple;
typedef Tuple0 ParamTuple;
};
template <class A>
struct TupleTypes<Tuple1<A>> {
typedef Tuple1<typename TupleTraits<A>::ValueType> ValueTuple;
typedef Tuple1<typename TupleTraits<A>::RefType> RefTuple;
typedef Tuple1<typename TupleTraits<A>::ParamType> ParamTuple;
};
template <class A, class B>
struct TupleTypes<Tuple2<A, B>> {
typedef Tuple2<typename TupleTraits<A>::ValueType,
typename TupleTraits<B>::ValueType>
ValueTuple;
typedef Tuple2<typename TupleTraits<A>::RefType,
typename TupleTraits<B>::RefType>
RefTuple;
typedef Tuple2<typename TupleTraits<A>::ParamType,
typename TupleTraits<B>::ParamType>
ParamTuple;
};
template <class A, class B, class C>
struct TupleTypes<Tuple3<A, B, C>> {
typedef Tuple3<typename TupleTraits<A>::ValueType,
typename TupleTraits<B>::ValueType,
typename TupleTraits<C>::ValueType>
ValueTuple;
typedef Tuple3<typename TupleTraits<A>::RefType,
typename TupleTraits<B>::RefType,
typename TupleTraits<C>::RefType>
RefTuple;
typedef Tuple3<typename TupleTraits<A>::ParamType,
typename TupleTraits<B>::ParamType,
typename TupleTraits<C>::ParamType>
ParamTuple;
};
template <class A, class B, class C, class D>
struct TupleTypes<Tuple4<A, B, C, D>> {
typedef Tuple4<typename TupleTraits<A>::ValueType,
typename TupleTraits<B>::ValueType,
typename TupleTraits<C>::ValueType,
typename TupleTraits<D>::ValueType>
ValueTuple;
typedef Tuple4<typename TupleTraits<A>::RefType,
typename TupleTraits<B>::RefType,
typename TupleTraits<C>::RefType,
typename TupleTraits<D>::RefType>
RefTuple;
typedef Tuple4<typename TupleTraits<A>::ParamType,
typename TupleTraits<B>::ParamType,
typename TupleTraits<C>::ParamType,
typename TupleTraits<D>::ParamType>
ParamTuple;
};
template <class A, class B, class C, class D, class E>
struct TupleTypes<Tuple5<A, B, C, D, E>> {
typedef Tuple5<typename TupleTraits<A>::ValueType,
typename TupleTraits<B>::ValueType,
typename TupleTraits<C>::ValueType,
typename TupleTraits<D>::ValueType,
typename TupleTraits<E>::ValueType>
ValueTuple;
typedef Tuple5<typename TupleTraits<A>::RefType,
typename TupleTraits<B>::RefType,
typename TupleTraits<C>::RefType,
typename TupleTraits<D>::RefType,
typename TupleTraits<E>::RefType>
RefTuple;
typedef Tuple5<typename TupleTraits<A>::ParamType,
typename TupleTraits<B>::ParamType,
typename TupleTraits<C>::ParamType,
typename TupleTraits<D>::ParamType,
typename TupleTraits<E>::ParamType>
ParamTuple;
};
template <class A, class B, class C, class D, class E, class F>
struct TupleTypes<Tuple6<A, B, C, D, E, F>> {
typedef Tuple6<typename TupleTraits<A>::ValueType,
typename TupleTraits<B>::ValueType,
typename TupleTraits<C>::ValueType,
typename TupleTraits<D>::ValueType,
typename TupleTraits<E>::ValueType,
typename TupleTraits<F>::ValueType>
ValueTuple;
typedef Tuple6<typename TupleTraits<A>::RefType,
typename TupleTraits<B>::RefType,
typename TupleTraits<C>::RefType,
typename TupleTraits<D>::RefType,
typename TupleTraits<E>::RefType,
typename TupleTraits<F>::RefType>
RefTuple;
typedef Tuple6<typename TupleTraits<A>::ParamType,
typename TupleTraits<B>::ParamType,
typename TupleTraits<C>::ParamType,
typename TupleTraits<D>::ParamType,
typename TupleTraits<E>::ParamType,
typename TupleTraits<F>::ParamType>
ParamTuple;
};
template <class A, class B, class C, class D, class E, class F, class G>
struct TupleTypes<Tuple7<A, B, C, D, E, F, G>> {
typedef Tuple7<typename TupleTraits<A>::ValueType,
typename TupleTraits<B>::ValueType,
typename TupleTraits<C>::ValueType,
typename TupleTraits<D>::ValueType,
typename TupleTraits<E>::ValueType,
typename TupleTraits<F>::ValueType,
typename TupleTraits<G>::ValueType>
ValueTuple;
typedef Tuple7<typename TupleTraits<A>::RefType,
typename TupleTraits<B>::RefType,
typename TupleTraits<C>::RefType,
typename TupleTraits<D>::RefType,
typename TupleTraits<E>::RefType,
typename TupleTraits<F>::RefType,
typename TupleTraits<G>::RefType>
RefTuple;
typedef Tuple7<typename TupleTraits<A>::ParamType,
typename TupleTraits<B>::ParamType,
typename TupleTraits<C>::ParamType,
typename TupleTraits<D>::ParamType,
typename TupleTraits<E>::ParamType,
typename TupleTraits<F>::ParamType,
typename TupleTraits<G>::ParamType>
ParamTuple;
};
template <class A,
class B,
class C,
class D,
class E,
class F,
class G,
class H>
struct TupleTypes<Tuple8<A, B, C, D, E, F, G, H>> {
typedef Tuple8<typename TupleTraits<A>::ValueType,
typename TupleTraits<B>::ValueType,
typename TupleTraits<C>::ValueType,
typename TupleTraits<D>::ValueType,
typename TupleTraits<E>::ValueType,
typename TupleTraits<F>::ValueType,
typename TupleTraits<G>::ValueType,
typename TupleTraits<H>::ValueType>
ValueTuple;
typedef Tuple8<typename TupleTraits<A>::RefType,
typename TupleTraits<B>::RefType,
typename TupleTraits<C>::RefType,
typename TupleTraits<D>::RefType,
typename TupleTraits<E>::RefType,
typename TupleTraits<F>::RefType,
typename TupleTraits<G>::RefType,
typename TupleTraits<H>::RefType>
RefTuple;
typedef Tuple8<typename TupleTraits<A>::ParamType,
typename TupleTraits<B>::ParamType,
typename TupleTraits<C>::ParamType,
typename TupleTraits<D>::ParamType,
typename TupleTraits<E>::ParamType,
typename TupleTraits<F>::ParamType,
typename TupleTraits<G>::ParamType,
typename TupleTraits<H>::ParamType>
ParamTuple;
};
// Tuple creators -------------------------------------------------------------
//
// Helper functions for constructing tuples while inferring the template
// argument types.
inline Tuple0 MakeTuple() {
return Tuple0();
}
template <class A>
inline Tuple1<A> MakeTuple(const A& a) {
return Tuple1<A>(a);
}
template <class A, class B>
inline Tuple2<A, B> MakeTuple(const A& a, const B& b) {
return Tuple2<A, B>(a, b);
}
template <class A, class B, class C>
inline Tuple3<A, B, C> MakeTuple(const A& a, const B& b, const C& c) {
return Tuple3<A, B, C>(a, b, c);
}
template <class A, class B, class C, class D>
inline Tuple4<A, B, C, D> MakeTuple(const A& a,
const B& b,
const C& c,
const D& d) {
return Tuple4<A, B, C, D>(a, b, c, d);
}
template <class A, class B, class C, class D, class E>
inline Tuple5<A, B, C, D, E> MakeTuple(const A& a,
const B& b,
const C& c,
const D& d,
const E& e) {
return Tuple5<A, B, C, D, E>(a, b, c, d, e);
}
template <class A, class B, class C, class D, class E, class F>
inline Tuple6<A, B, C, D, E, F> MakeTuple(const A& a,
const B& b,
const C& c,
const D& d,
const E& e,
const F& f) {
return Tuple6<A, B, C, D, E, F>(a, b, c, d, e, f);
}
template <class A, class B, class C, class D, class E, class F, class G>
inline Tuple7<A, B, C, D, E, F, G> MakeTuple(const A& a,
const B& b,
const C& c,
const D& d,
const E& e,
const F& f,
const G& g) {
return Tuple7<A, B, C, D, E, F, G>(a, b, c, d, e, f, g);
}
template <class A,
class B,
class C,
class D,
class E,
class F,
class G,
class H>
inline Tuple8<A, B, C, D, E, F, G, H> MakeTuple(const A& a,
const B& b,
const C& c,
const D& d,
const E& e,
const F& f,
const G& g,
const H& h) {
return Tuple8<A, B, C, D, E, F, G, H>(a, b, c, d, e, f, g, h);
}
// The following set of helpers make what Boost refers to as "Tiers" - a tuple
// of references.
template <class A>
inline Tuple1<A&> MakeRefTuple(A& a) {
return Tuple1<A&>(a);
}
template <class A, class B>
inline Tuple2<A&, B&> MakeRefTuple(A& a, B& b) {
return Tuple2<A&, B&>(a, b);
}
template <class A, class B, class C>
inline Tuple3<A&, B&, C&> MakeRefTuple(A& a, B& b, C& c) {
return Tuple3<A&, B&, C&>(a, b, c);
}
template <class A, class B, class C, class D>
inline Tuple4<A&, B&, C&, D&> MakeRefTuple(A& a, B& b, C& c, D& d) {
return Tuple4<A&, B&, C&, D&>(a, b, c, d);
}
template <class A, class B, class C, class D, class E>
inline Tuple5<A&, B&, C&, D&, E&> MakeRefTuple(A& a, B& b, C& c, D& d, E& e) {
return Tuple5<A&, B&, C&, D&, E&>(a, b, c, d, e);
}
template <class A, class B, class C, class D, class E, class F>
inline Tuple6<A&, B&, C&, D&, E&, F&> MakeRefTuple(A& a,
B& b,
C& c,
D& d,
E& e,
F& f) {
return Tuple6<A&, B&, C&, D&, E&, F&>(a, b, c, d, e, f);
}
template <class A, class B, class C, class D, class E, class F, class G>
inline Tuple7<A&, B&, C&, D&, E&, F&, G&>
MakeRefTuple(A& a, B& b, C& c, D& d, E& e, F& f, G& g) {
return Tuple7<A&, B&, C&, D&, E&, F&, G&>(a, b, c, d, e, f, g);
}
template <class A,
class B,
class C,
class D,
class E,
class F,
class G,
class H>
inline Tuple8<A&, B&, C&, D&, E&, F&, G&, H&>
MakeRefTuple(A& a, B& b, C& c, D& d, E& e, F& f, G& g, H& h) {
return Tuple8<A&, B&, C&, D&, E&, F&, G&, H&>(a, b, c, d, e, f, g, h);
}
// Dispatchers ----------------------------------------------------------------
//
// Helper functions that call the given method on an object, with the unpacked
// tuple arguments. Notice that they all have the same number of arguments,
// so you need only write:
// DispatchToMethod(object, &Object::method, args);
// This is very useful for templated dispatchers, since they don't need to know
// what type |args| is.
// Non-Static Dispatchers with no out params.
template <class ObjT, class Method>
inline void DispatchToMethod(ObjT* obj, Method method, const Tuple0& arg) {
(obj->*method)();
}
template <class ObjT, class Method, class A>
inline void DispatchToMethod(ObjT* obj, Method method, const A& arg) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg));
}
template <class ObjT, class Method, class A>
inline void DispatchToMethod(ObjT* obj, Method method, const Tuple1<A>& arg) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a));
}
template <class ObjT, class Method, class A, class B>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple2<A, B>& arg) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b));
}
template <class ObjT, class Method, class A, class B, class C>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple3<A, B, C>& arg) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c));
}
template <class ObjT, class Method, class A, class B, class C, class D>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple4<A, B, C, D>& arg) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d));
}
template <class ObjT, class Method, class A, class B, class C, class D, class E>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple5<A, B, C, D, E>& arg) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e));
}
template <class ObjT,
class Method,
class A,
class B,
class C,
class D,
class E,
class F>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple6<A, B, C, D, E, F>& arg) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e),
base::cef_internal::UnwrapTraits<F>::Unwrap(arg.f));
}
template <class ObjT,
class Method,
class A,
class B,
class C,
class D,
class E,
class F,
class G>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple7<A, B, C, D, E, F, G>& arg) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e),
base::cef_internal::UnwrapTraits<F>::Unwrap(arg.f),
base::cef_internal::UnwrapTraits<G>::Unwrap(arg.g));
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
}
template <class ObjT,
class Method,
class A,
class B,
class C,
class D,
class E,
class F,
class G,
class H>
inline void DispatchToMethod(ObjT* obj,
Method method,
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
const Tuple8<A, B, C, D, E, F, G, H>& arg) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e),
base::cef_internal::UnwrapTraits<F>::Unwrap(arg.f),
base::cef_internal::UnwrapTraits<G>::Unwrap(arg.g),
base::cef_internal::UnwrapTraits<H>::Unwrap(arg.h));
}
// Static Dispatchers with no out params.
template <class Function>
inline void DispatchToFunction(Function function, const Tuple0& arg) {
(*function)();
}
template <class Function, class A>
inline void DispatchToFunction(Function function, const A& arg) {
(*function)(arg);
}
template <class Function, class A>
inline void DispatchToFunction(Function function, const Tuple1<A>& arg) {
(*function)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a));
}
template <class Function, class A, class B>
inline void DispatchToFunction(Function function, const Tuple2<A, B>& arg) {
(*function)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b));
}
template <class Function, class A, class B, class C>
inline void DispatchToFunction(Function function, const Tuple3<A, B, C>& arg) {
(*function)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c));
}
template <class Function, class A, class B, class C, class D>
inline void DispatchToFunction(Function function,
const Tuple4<A, B, C, D>& arg) {
(*function)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d));
}
template <class Function, class A, class B, class C, class D, class E>
inline void DispatchToFunction(Function function,
const Tuple5<A, B, C, D, E>& arg) {
(*function)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e));
}
template <class Function, class A, class B, class C, class D, class E, class F>
inline void DispatchToFunction(Function function,
const Tuple6<A, B, C, D, E, F>& arg) {
(*function)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e),
base::cef_internal::UnwrapTraits<F>::Unwrap(arg.f));
}
template <class Function,
class A,
class B,
class C,
class D,
class E,
class F,
class G>
inline void DispatchToFunction(Function function,
const Tuple7<A, B, C, D, E, F, G>& arg) {
(*function)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e),
base::cef_internal::UnwrapTraits<F>::Unwrap(arg.f),
base::cef_internal::UnwrapTraits<G>::Unwrap(arg.g));
}
template <class Function,
class A,
class B,
class C,
class D,
class E,
class F,
class G,
class H>
inline void DispatchToFunction(Function function,
const Tuple8<A, B, C, D, E, F, G, H>& arg) {
(*function)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e),
base::cef_internal::UnwrapTraits<F>::Unwrap(arg.f),
base::cef_internal::UnwrapTraits<G>::Unwrap(arg.g),
base::cef_internal::UnwrapTraits<H>::Unwrap(arg.h));
}
// Dispatchers with 0 out param (as a Tuple0).
template <class ObjT, class Method>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple0& arg,
Tuple0*) {
(obj->*method)();
}
template <class ObjT, class Method, class A>
inline void DispatchToMethod(ObjT* obj, Method method, const A& arg, Tuple0*) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg));
}
template <class ObjT, class Method, class A>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple1<A>& arg,
Tuple0*) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a));
}
template <class ObjT, class Method, class A, class B>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple2<A, B>& arg,
Tuple0*) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b));
}
template <class ObjT, class Method, class A, class B, class C>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple3<A, B, C>& arg,
Tuple0*) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c));
}
template <class ObjT, class Method, class A, class B, class C, class D>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple4<A, B, C, D>& arg,
Tuple0*) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d));
}
template <class ObjT, class Method, class A, class B, class C, class D, class E>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple5<A, B, C, D, E>& arg,
Tuple0*) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e));
}
template <class ObjT,
class Method,
class A,
class B,
class C,
class D,
class E,
class F>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple6<A, B, C, D, E, F>& arg,
Tuple0*) {
(obj->*method)(base::cef_internal::UnwrapTraits<A>::Unwrap(arg.a),
base::cef_internal::UnwrapTraits<B>::Unwrap(arg.b),
base::cef_internal::UnwrapTraits<C>::Unwrap(arg.c),
base::cef_internal::UnwrapTraits<D>::Unwrap(arg.d),
base::cef_internal::UnwrapTraits<E>::Unwrap(arg.e),
base::cef_internal::UnwrapTraits<F>::Unwrap(arg.f));
}
// Dispatchers with 1 out param.
template <class ObjT, class Method, class OutA>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple0& in,
Tuple1<OutA>* out) {
(obj->*method)(&out->a);
}
template <class ObjT, class Method, class InA, class OutA>
inline void DispatchToMethod(ObjT* obj,
Method method,
const InA& in,
Tuple1<OutA>* out) {
(obj->*method)(in, &out->a);
}
template <class ObjT, class Method, class InA, class OutA>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple1<InA>& in,
Tuple1<OutA>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a), &out->a);
}
template <class ObjT, class Method, class InA, class InB, class OutA>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple2<InA, InB>& in,
Tuple1<OutA>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b), &out->a);
}
template <class ObjT, class Method, class InA, class InB, class InC, class OutA>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple3<InA, InB, InC>& in,
Tuple1<OutA>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c), &out->a);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class OutA>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple4<InA, InB, InC, InD>& in,
Tuple1<OutA>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d), &out->a);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class OutA>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple5<InA, InB, InC, InD, InE>& in,
Tuple1<OutA>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e), &out->a);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class InF,
class OutA>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple6<InA, InB, InC, InD, InE, InF>& in,
Tuple1<OutA>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e),
base::cef_internal::UnwrapTraits<InF>::Unwrap(in.f), &out->a);
}
// Dispatchers with 2 out params.
template <class ObjT, class Method, class OutA, class OutB>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple0& in,
Tuple2<OutA, OutB>* out) {
(obj->*method)(&out->a, &out->b);
}
template <class ObjT, class Method, class InA, class OutA, class OutB>
inline void DispatchToMethod(ObjT* obj,
Method method,
const InA& in,
Tuple2<OutA, OutB>* out) {
(obj->*method)(in, &out->a, &out->b);
}
template <class ObjT, class Method, class InA, class OutA, class OutB>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple1<InA>& in,
Tuple2<OutA, OutB>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a), &out->a,
&out->b);
}
template <class ObjT,
class Method,
class InA,
class InB,
class OutA,
class OutB>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple2<InA, InB>& in,
Tuple2<OutA, OutB>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b), &out->a,
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
&out->b);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class OutA,
class OutB>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple3<InA, InB, InC>& in,
Tuple2<OutA, OutB>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c), &out->a,
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
&out->b);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class OutA,
class OutB>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple4<InA, InB, InC, InD>& in,
Tuple2<OutA, OutB>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d), &out->a,
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
&out->b);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class OutA,
class OutB>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple5<InA, InB, InC, InD, InE>& in,
Tuple2<OutA, OutB>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e), &out->a,
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
&out->b);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class InF,
class OutA,
class OutB>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple6<InA, InB, InC, InD, InE, InF>& in,
Tuple2<OutA, OutB>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e),
base::cef_internal::UnwrapTraits<InF>::Unwrap(in.f), &out->a,
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
&out->b);
}
// Dispatchers with 3 out params.
template <class ObjT, class Method, class OutA, class OutB, class OutC>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple0& in,
Tuple3<OutA, OutB, OutC>* out) {
(obj->*method)(&out->a, &out->b, &out->c);
}
template <class ObjT,
class Method,
class InA,
class OutA,
class OutB,
class OutC>
inline void DispatchToMethod(ObjT* obj,
Method method,
const InA& in,
Tuple3<OutA, OutB, OutC>* out) {
(obj->*method)(in, &out->a, &out->b, &out->c);
}
template <class ObjT,
class Method,
class InA,
class OutA,
class OutB,
class OutC>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple1<InA>& in,
Tuple3<OutA, OutB, OutC>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a), &out->a,
&out->b, &out->c);
}
template <class ObjT,
class Method,
class InA,
class InB,
class OutA,
class OutB,
class OutC>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple2<InA, InB>& in,
Tuple3<OutA, OutB, OutC>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b), &out->a,
&out->b, &out->c);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class OutA,
class OutB,
class OutC>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple3<InA, InB, InC>& in,
Tuple3<OutA, OutB, OutC>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c), &out->a,
&out->b, &out->c);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class OutA,
class OutB,
class OutC>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple4<InA, InB, InC, InD>& in,
Tuple3<OutA, OutB, OutC>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d), &out->a,
&out->b, &out->c);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class OutA,
class OutB,
class OutC>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple5<InA, InB, InC, InD, InE>& in,
Tuple3<OutA, OutB, OutC>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e), &out->a,
&out->b, &out->c);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class InF,
class OutA,
class OutB,
class OutC>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple6<InA, InB, InC, InD, InE, InF>& in,
Tuple3<OutA, OutB, OutC>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e),
base::cef_internal::UnwrapTraits<InF>::Unwrap(in.f), &out->a,
&out->b, &out->c);
}
// Dispatchers with 4 out params.
template <class ObjT,
class Method,
class OutA,
class OutB,
class OutC,
class OutD>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple0& in,
Tuple4<OutA, OutB, OutC, OutD>* out) {
(obj->*method)(&out->a, &out->b, &out->c, &out->d);
}
template <class ObjT,
class Method,
class InA,
class OutA,
class OutB,
class OutC,
class OutD>
inline void DispatchToMethod(ObjT* obj,
Method method,
const InA& in,
Tuple4<OutA, OutB, OutC, OutD>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in), &out->a,
&out->b, &out->c, &out->d);
}
template <class ObjT,
class Method,
class InA,
class OutA,
class OutB,
class OutC,
class OutD>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple1<InA>& in,
Tuple4<OutA, OutB, OutC, OutD>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a), &out->a,
&out->b, &out->c, &out->d);
}
template <class ObjT,
class Method,
class InA,
class InB,
class OutA,
class OutB,
class OutC,
class OutD>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple2<InA, InB>& in,
Tuple4<OutA, OutB, OutC, OutD>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b), &out->a,
&out->b, &out->c, &out->d);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class OutA,
class OutB,
class OutC,
class OutD>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple3<InA, InB, InC>& in,
Tuple4<OutA, OutB, OutC, OutD>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c), &out->a,
&out->b, &out->c, &out->d);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class OutA,
class OutB,
class OutC,
class OutD>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple4<InA, InB, InC, InD>& in,
Tuple4<OutA, OutB, OutC, OutD>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d), &out->a,
&out->b, &out->c, &out->d);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class OutA,
class OutB,
class OutC,
class OutD>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple5<InA, InB, InC, InD, InE>& in,
Tuple4<OutA, OutB, OutC, OutD>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e), &out->a,
&out->b, &out->c, &out->d);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class InF,
class OutA,
class OutB,
class OutC,
class OutD>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple6<InA, InB, InC, InD, InE, InF>& in,
Tuple4<OutA, OutB, OutC, OutD>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e),
base::cef_internal::UnwrapTraits<InF>::Unwrap(in.f), &out->a,
&out->b, &out->c, &out->d);
}
// Dispatchers with 5 out params.
template <class ObjT,
class Method,
class OutA,
class OutB,
class OutC,
class OutD,
class OutE>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple0& in,
Tuple5<OutA, OutB, OutC, OutD, OutE>* out) {
(obj->*method)(&out->a, &out->b, &out->c, &out->d, &out->e);
}
template <class ObjT,
class Method,
class InA,
class OutA,
class OutB,
class OutC,
class OutD,
class OutE>
inline void DispatchToMethod(ObjT* obj,
Method method,
const InA& in,
Tuple5<OutA, OutB, OutC, OutD, OutE>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in), &out->a,
&out->b, &out->c, &out->d, &out->e);
}
template <class ObjT,
class Method,
class InA,
class OutA,
class OutB,
class OutC,
class OutD,
class OutE>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple1<InA>& in,
Tuple5<OutA, OutB, OutC, OutD, OutE>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a), &out->a,
&out->b, &out->c, &out->d, &out->e);
}
template <class ObjT,
class Method,
class InA,
class InB,
class OutA,
class OutB,
class OutC,
class OutD,
class OutE>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple2<InA, InB>& in,
Tuple5<OutA, OutB, OutC, OutD, OutE>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b), &out->a,
&out->b, &out->c, &out->d, &out->e);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class OutA,
class OutB,
class OutC,
class OutD,
class OutE>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple3<InA, InB, InC>& in,
Tuple5<OutA, OutB, OutC, OutD, OutE>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c), &out->a,
&out->b, &out->c, &out->d, &out->e);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class OutA,
class OutB,
class OutC,
class OutD,
class OutE>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple4<InA, InB, InC, InD>& in,
Tuple5<OutA, OutB, OutC, OutD, OutE>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d), &out->a,
&out->b, &out->c, &out->d, &out->e);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class OutA,
class OutB,
class OutC,
class OutD,
class OutE>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple5<InA, InB, InC, InD, InE>& in,
Tuple5<OutA, OutB, OutC, OutD, OutE>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e), &out->a,
&out->b, &out->c, &out->d, &out->e);
}
template <class ObjT,
class Method,
class InA,
class InB,
class InC,
class InD,
class InE,
class InF,
class OutA,
class OutB,
class OutC,
class OutD,
class OutE>
inline void DispatchToMethod(ObjT* obj,
Method method,
const Tuple6<InA, InB, InC, InD, InE, InF>& in,
Tuple5<OutA, OutB, OutC, OutD, OutE>* out) {
(obj->*method)(base::cef_internal::UnwrapTraits<InA>::Unwrap(in.a),
base::cef_internal::UnwrapTraits<InB>::Unwrap(in.b),
base::cef_internal::UnwrapTraits<InC>::Unwrap(in.c),
base::cef_internal::UnwrapTraits<InD>::Unwrap(in.d),
base::cef_internal::UnwrapTraits<InE>::Unwrap(in.e),
base::cef_internal::UnwrapTraits<InF>::Unwrap(in.f), &out->a,
&out->b, &out->c, &out->d, &out->e);
}
} // namespace base
#endif // !USING_CHROMIUM_INCLUDES
Introduce the use of Chromium types (issue #1336). Changes to the CEF public API: - Add base::Bind, base::Callback, base::Lock, base::WeakPtr, scoped_refptr, scoped_ptr and supporting types. - Add include/wrapper/cef_closure_task.h helpers for converting a base::Closure to a CefTask. - Change CefRefPtr to extend scoped_refptr. -- Change CefBase method signatures to match RefCountedThreadSafeBase. - Change IMPLEMENT_REFCOUNTING to use base::AtomicRefCount*. -- Remove the CefAtomic* functions. -- IMPLEMENT_REFCOUNTING now enforces via a compile-time error that the correct class name was passed to the macro. - Change IMPLEMENT_LOCKING to use base::Lock. -- Remove the CefCriticalSection class. -- Deprecate the IMPLEMENT_LOCKING macro. -- base::Lock will DCHECK() in Debug builds if lock usage is reentrant. - Move include/internal/cef_tuple.h to include/base/cef_tuple.h. - Allow an empty |callback| parameter passed to CefBeginTracing. Changes to the CEF implementation: - Fix incorrect names passed to the IMPLEMENT_REFCOUNTING macro. - Fix instances of reentrant locking in the CefXmlObject and CefRequest implementations. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cef_unittests: - Add tests/unittests/chromium_includes.h and always include it first from unit test .cc files to avoid name conflicts with Chromium types. - Fix wrong header include ordering. - Remove use of the IMPLEMENT_LOCKING macro. Changes to cefclient and cefsimple: - Use base::Bind and cef_closure_task.h instead of NewCefRunnable*. - Remove use of the IMPEMENT_LOCKING macro. - Fix incorrect/unnecessary locking. - Add additional runtime thread checks. - Windows: Perform actions on the UI thread instead of the main thread when running in multi-threaded-message-loop mode to avoid excessive locking. git-svn-id: https://chromiumembedded.googlecode.com/svn/trunk@1769 5089003a-bbd8-11dd-ad1f-f1f9622dbc98
2014-07-15 00:18:51 +02:00
#endif // CEF_INCLUDE_BASE_CEF_TUPLE_H_