501 lines
15 KiB
Plaintext
501 lines
15 KiB
Plaintext
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$$ This is a pump file for generating file templates. Pump is a python
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$$ script that is part of the Google Test suite of utilities. Description
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$$ can be found here:
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$$
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$$ http://code.google.com/p/googletest/wiki/PumpManual
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$$
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$$ See comment for MAX_ARITY in base/bind.h.pump.
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$var MAX_ARITY = 7
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$range ARITY 0..MAX_ARITY
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// Copyright (c) 2011 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef BASE_BIND_INTERNAL_H_
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#define BASE_BIND_INTERNAL_H_
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#include "base/bind_helpers.h"
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#include "base/callback_internal.h"
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#include "base/memory/raw_scoped_refptr_mismatch_checker.h"
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#include "base/memory/weak_ptr.h"
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#include "base/template_util.h"
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#include "build/build_config.h"
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#if defined(OS_WIN)
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#include "base/bind_internal_win.h"
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#endif
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namespace base {
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namespace internal {
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// See base/callback.h for user documentation.
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//
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//
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// CONCEPTS:
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// Runnable -- A type (really a type class) that has a single Run() method
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// and a RunType typedef that corresponds to the type of Run().
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// A Runnable can declare that it should treated like a method
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// call by including a typedef named IsMethod. The value of
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// this typedef is NOT inspected, only the existence. When a
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// Runnable declares itself a method, Bind() will enforce special
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// refcounting + WeakPtr handling semantics for the first
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// parameter which is expected to be an object.
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// Functor -- A copyable type representing something that should be called.
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// All function pointers, Callback<>, and Runnables are functors
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// even if the invocation syntax differs.
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// RunType -- A function type (as opposed to function _pointer_ type) for
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// a Run() function. Usually just a convenience typedef.
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// (Bound)ArgsType -- A function type that is being (ab)used to store the
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// types of set of arguments. The "return" type is always
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// void here. We use this hack so that we do not need
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// a new type name for each arity of type. (eg.,
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// BindState1, BindState2). This makes forward
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// declarations and friending much much easier.
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//
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// Types:
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// RunnableAdapter<> -- Wraps the various "function" pointer types into an
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// object that adheres to the Runnable interface.
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// There are |3*ARITY| RunnableAdapter types.
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// FunctionTraits<> -- Type traits that unwrap a function signature into a
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// a set of easier to use typedefs. Used mainly for
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// compile time asserts.
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// There are |ARITY| FunctionTraits types.
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// ForceVoidReturn<> -- Helper class for translating function signatures to
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// equivalent forms with a "void" return type.
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// There are |ARITY| ForceVoidReturn types.
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// FunctorTraits<> -- Type traits used determine the correct RunType and
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// RunnableType for a Functor. This is where function
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// signature adapters are applied.
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// There are |ARITY| ForceVoidReturn types.
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// MakeRunnable<> -- Takes a Functor and returns an object in the Runnable
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// type class that represents the underlying Functor.
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// There are |O(1)| MakeRunnable types.
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// InvokeHelper<> -- Take a Runnable + arguments and actully invokes it.
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// Handle the differing syntaxes needed for WeakPtr<> support,
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// and for ignoring return values. This is separate from
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// Invoker to avoid creating multiple version of Invoker<>
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// which grows at O(n^2) with the arity.
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// There are |k*ARITY| InvokeHelper types.
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// Invoker<> -- Unwraps the curried parameters and executes the Runnable.
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// There are |(ARITY^2 + ARITY)/2| Invoketypes.
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// BindState<> -- Stores the curried parameters, and is the main entry point
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// into the Bind() system, doing most of the type resolution.
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// There are ARITY BindState types.
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// RunnableAdapter<>
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//
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// The RunnableAdapter<> templates provide a uniform interface for invoking
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// a function pointer, method pointer, or const method pointer. The adapter
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// exposes a Run() method with an appropriate signature. Using this wrapper
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// allows for writing code that supports all three pointer types without
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// undue repetition. Without it, a lot of code would need to be repeated 3
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// times.
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//
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// For method pointers and const method pointers the first argument to Run()
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// is considered to be the received of the method. This is similar to STL's
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// mem_fun().
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//
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// This class also exposes a RunType typedef that is the function type of the
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// Run() function.
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//
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// If and only if the wrapper contains a method or const method pointer, an
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// IsMethod typedef is exposed. The existence of this typedef (NOT the value)
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// marks that the wrapper should be considered a method wrapper.
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template <typename Functor>
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class RunnableAdapter;
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$for ARITY [[
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$range ARG 1..ARITY
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// Function: Arity $(ARITY).
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template <typename R[[]]
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$if ARITY > 0[[, ]] $for ARG , [[typename A$(ARG)]]>
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class RunnableAdapter<R(*)($for ARG , [[A$(ARG)]])> {
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public:
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typedef R (RunType)($for ARG , [[A$(ARG)]]);
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explicit RunnableAdapter(R(*function)($for ARG , [[A$(ARG)]]))
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: function_(function) {
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}
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R Run($for ARG , [[typename CallbackParamTraits<A$(ARG)>::ForwardType a$(ARG)]]) {
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return function_($for ARG , [[CallbackForward(a$(ARG))]]);
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}
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private:
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R (*function_)($for ARG , [[A$(ARG)]]);
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};
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// Method: Arity $(ARITY).
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template <typename R, typename T[[]]
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$if ARITY > 0[[, ]] $for ARG , [[typename A$(ARG)]]>
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class RunnableAdapter<R(T::*)($for ARG , [[A$(ARG)]])> {
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public:
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typedef R (RunType)(T*[[]]
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$if ARITY > 0[[, ]] $for ARG , [[A$(ARG)]]);
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typedef true_type IsMethod;
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explicit RunnableAdapter(R(T::*method)($for ARG , [[A$(ARG)]]))
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: method_(method) {
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}
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R Run(T* object[[]]
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$if ARITY > 0[[, ]] $for ARG, [[typename CallbackParamTraits<A$(ARG)>::ForwardType a$(ARG)]]) {
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return (object->*method_)($for ARG , [[CallbackForward(a$(ARG))]]);
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}
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private:
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R (T::*method_)($for ARG , [[A$(ARG)]]);
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};
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// Const Method: Arity $(ARITY).
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template <typename R, typename T[[]]
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$if ARITY > 0[[, ]] $for ARG , [[typename A$(ARG)]]>
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class RunnableAdapter<R(T::*)($for ARG , [[A$(ARG)]]) const> {
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public:
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typedef R (RunType)(const T*[[]]
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$if ARITY > 0[[, ]] $for ARG , [[A$(ARG)]]);
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typedef true_type IsMethod;
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explicit RunnableAdapter(R(T::*method)($for ARG , [[A$(ARG)]]) const)
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: method_(method) {
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}
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R Run(const T* object[[]]
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$if ARITY > 0[[, ]] $for ARG, [[typename CallbackParamTraits<A$(ARG)>::ForwardType a$(ARG)]]) {
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return (object->*method_)($for ARG , [[CallbackForward(a$(ARG))]]);
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}
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private:
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R (T::*method_)($for ARG , [[A$(ARG)]]) const;
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};
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]] $$ for ARITY
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// FunctionTraits<>
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//
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// Breaks a function signature apart into typedefs for easier introspection.
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template <typename Sig>
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struct FunctionTraits;
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$for ARITY [[
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$range ARG 1..ARITY
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template <typename R[[]]
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$if ARITY > 0[[, ]] $for ARG , [[typename A$(ARG)]]>
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struct FunctionTraits<R($for ARG , [[A$(ARG)]])> {
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typedef R ReturnType;
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$for ARG [[
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typedef A$(ARG) A$(ARG)Type;
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]]
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};
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]]
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// ForceVoidReturn<>
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//
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// Set of templates that support forcing the function return type to void.
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template <typename Sig>
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struct ForceVoidReturn;
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$for ARITY [[
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$range ARG 1..ARITY
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template <typename R[[]]
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$if ARITY > 0[[, ]] $for ARG , [[typename A$(ARG)]]>
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struct ForceVoidReturn<R($for ARG , [[A$(ARG)]])> {
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typedef void(RunType)($for ARG , [[A$(ARG)]]);
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};
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]] $$ for ARITY
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// FunctorTraits<>
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//
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// See description at top of file.
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template <typename T>
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struct FunctorTraits {
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typedef RunnableAdapter<T> RunnableType;
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typedef typename RunnableType::RunType RunType;
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};
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template <typename T>
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struct FunctorTraits<IgnoreResultHelper<T> > {
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typedef typename FunctorTraits<T>::RunnableType RunnableType;
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typedef typename ForceVoidReturn<
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typename RunnableType::RunType>::RunType RunType;
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};
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template <typename T>
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struct FunctorTraits<Callback<T> > {
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typedef Callback<T> RunnableType;
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typedef typename Callback<T>::RunType RunType;
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};
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// MakeRunnable<>
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//
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// Converts a passed in functor to a RunnableType using type inference.
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template <typename T>
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typename FunctorTraits<T>::RunnableType MakeRunnable(const T& t) {
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return RunnableAdapter<T>(t);
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}
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template <typename T>
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typename FunctorTraits<T>::RunnableType
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MakeRunnable(const IgnoreResultHelper<T>& t) {
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return MakeRunnable(t.functor_);
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}
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template <typename T>
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const typename FunctorTraits<Callback<T> >::RunnableType&
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MakeRunnable(const Callback<T>& t) {
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DCHECK(!t.is_null());
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return t;
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}
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// InvokeHelper<>
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//
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// There are 3 logical InvokeHelper<> specializations: normal, void-return,
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// WeakCalls.
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//
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// The normal type just calls the underlying runnable.
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//
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// We need a InvokeHelper to handle void return types in order to support
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// IgnoreResult(). Normally, if the Runnable's RunType had a void return,
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// the template system would just accept "return functor.Run()" ignoring
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// the fact that a void function is being used with return. This piece of
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// sugar breaks though when the Runnable's RunType is not void. Thus, we
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// need a partial specialization to change the syntax to drop the "return"
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// from the invocation call.
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//
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// WeakCalls similarly need special syntax that is applied to the first
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// argument to check if they should no-op themselves.
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template <bool IsWeakCall, typename ReturnType, typename Runnable,
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typename ArgsType>
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struct InvokeHelper;
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$for ARITY [[
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$range ARG 1..ARITY
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$range WEAKCALL_ARG 2..ARITY
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template <typename ReturnType, typename Runnable[[]]
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$if ARITY > 0 [[,]] $for ARG , [[typename A$(ARG)]]>
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struct InvokeHelper<false, ReturnType, Runnable,
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void($for ARG , [[A$(ARG)]])> {
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static ReturnType MakeItSo(Runnable runnable[[]]
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$if ARITY > 0[[, ]] $for ARG , [[A$(ARG) a$(ARG)]]) {
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return runnable.Run($for ARG , [[CallbackForward(a$(ARG))]]);
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}
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};
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template <typename Runnable[[]]
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$if ARITY > 0 [[,]] $for ARG , [[typename A$(ARG)]]>
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struct InvokeHelper<false, void, Runnable,
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void($for ARG , [[A$(ARG)]])> {
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static void MakeItSo(Runnable runnable[[]]
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$if ARITY > 0[[, ]] $for ARG , [[A$(ARG) a$(ARG)]]) {
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runnable.Run($for ARG , [[CallbackForward(a$(ARG))]]);
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}
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};
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$if ARITY > 0 [[
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template <typename Runnable[[]], typename BoundWeakPtr
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$if ARITY > 1[[, ]] $for WEAKCALL_ARG , [[typename A$(WEAKCALL_ARG)]]>
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struct InvokeHelper<true, void, Runnable,
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void(BoundWeakPtr
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$if ARITY > 1[[, ]] $for WEAKCALL_ARG , [[A$(WEAKCALL_ARG)]])> {
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static void MakeItSo(Runnable runnable, BoundWeakPtr weak_ptr
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$if ARITY > 1[[, ]] $for WEAKCALL_ARG , [[A$(WEAKCALL_ARG) a$(WEAKCALL_ARG)]]) {
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if (!weak_ptr.get()) {
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return;
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}
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runnable.Run(weak_ptr.get()
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$if ARITY > 1[[, ]] $for WEAKCALL_ARG , [[CallbackForward(a$(WEAKCALL_ARG))]]);
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}
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};
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]]
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]] $$ for ARITY
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#if !defined(_MSC_VER)
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template <typename ReturnType, typename Runnable, typename ArgsType>
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struct InvokeHelper<true, ReturnType, Runnable, ArgsType> {
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// WeakCalls are only supported for functions with a void return type.
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// Otherwise, the function result would be undefined if the the WeakPtr<>
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// is invalidated.
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COMPILE_ASSERT(is_void<ReturnType>::value,
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weak_ptrs_can_only_bind_to_methods_without_return_values);
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};
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#endif
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// Invoker<>
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//
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// See description at the top of the file.
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template <int NumBound, typename Storage, typename RunType>
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struct Invoker;
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$for ARITY [[
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$$ Number of bound arguments.
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$range BOUND 0..ARITY
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$for BOUND [[
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$var UNBOUND = ARITY - BOUND
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$range ARG 1..ARITY
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$range BOUND_ARG 1..BOUND
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$range UNBOUND_ARG (ARITY - UNBOUND + 1)..ARITY
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// Arity $(ARITY) -> $(UNBOUND).
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template <typename StorageType, typename R[[]]
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$if ARITY > 0 [[,]][[]]
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$for ARG , [[typename X$(ARG)]]>
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struct Invoker<$(BOUND), StorageType, R($for ARG , [[X$(ARG)]])> {
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typedef R(RunType)(BindStateBase*[[]]
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$if UNBOUND != 0 [[, ]]
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$for UNBOUND_ARG , [[typename CallbackParamTraits<X$(UNBOUND_ARG)>::ForwardType]]);
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typedef R(UnboundRunType)($for UNBOUND_ARG , [[X$(UNBOUND_ARG)]]);
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static R Run(BindStateBase* base[[]]
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$if UNBOUND != 0 [[, ]][[]]
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$for UNBOUND_ARG , [[
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typename CallbackParamTraits<X$(UNBOUND_ARG)>::ForwardType x$(UNBOUND_ARG)
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]][[]]
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) {
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StorageType* storage = static_cast<StorageType*>(base);
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// Local references to make debugger stepping easier. If in a debugger,
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// you really want to warp ahead and step through the
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// InvokeHelper<>::MakeItSo() call below.
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$for BOUND_ARG
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[[
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typedef typename StorageType::Bound$(BOUND_ARG)UnwrapTraits Bound$(BOUND_ARG)UnwrapTraits;
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]]
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$for BOUND_ARG
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[[
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typename Bound$(BOUND_ARG)UnwrapTraits::ForwardType x$(BOUND_ARG) =
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Bound$(BOUND_ARG)UnwrapTraits::Unwrap(storage->p$(BOUND_ARG)_);
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]]
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return InvokeHelper<StorageType::IsWeakCall::value, R,
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typename StorageType::RunnableType,
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void(
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$for BOUND_ARG , [[
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typename Bound$(BOUND_ARG)UnwrapTraits::ForwardType
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]]
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$if UNBOUND > 0 [[$if BOUND > 0 [[, ]]]][[]]
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$for UNBOUND_ARG , [[
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typename CallbackParamTraits<X$(UNBOUND_ARG)>::ForwardType x$(UNBOUND_ARG)
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|
]]
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)>
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::MakeItSo(storage->runnable_
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$if ARITY > 0[[, ]] $for ARG , [[CallbackForward(x$(ARG))]]);
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}
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};
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]] $$ for BOUND
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]] $$ for ARITY
|
||
|
|
||
|
|
||
|
// BindState<>
|
||
|
//
|
||
|
// This stores all the state passed into Bind() and is also where most
|
||
|
// of the template resolution magic occurs.
|
||
|
//
|
||
|
// Runnable is the functor we are binding arguments to.
|
||
|
// RunType is type of the Run() function that the Invoker<> should use.
|
||
|
// Normally, this is the same as the RunType of the Runnable, but it can
|
||
|
// be different if an adapter like IgnoreResult() has been used.
|
||
|
//
|
||
|
// BoundArgsType contains the storage type for all the bound arguments by
|
||
|
// (ab)using a function type.
|
||
|
template <typename Runnable, typename RunType, typename BoundArgsType>
|
||
|
struct BindState;
|
||
|
|
||
|
$for ARITY [[
|
||
|
$range ARG 1..ARITY
|
||
|
|
||
|
template <typename Runnable, typename RunType[[]]
|
||
|
$if ARITY > 0[[, ]] $for ARG , [[typename P$(ARG)]]>
|
||
|
struct BindState<Runnable, RunType, void($for ARG , [[P$(ARG)]])> : public BindStateBase {
|
||
|
typedef Runnable RunnableType;
|
||
|
|
||
|
$if ARITY > 0 [[
|
||
|
typedef IsWeakMethod<HasIsMethodTag<Runnable>::value, P1> IsWeakCall;
|
||
|
]] $else [[
|
||
|
typedef false_type IsWeakCall;
|
||
|
]]
|
||
|
|
||
|
typedef Invoker<$(ARITY), BindState, RunType> InvokerType;
|
||
|
typedef typename InvokerType::UnboundRunType UnboundRunType;
|
||
|
|
||
|
$if ARITY > 0 [[
|
||
|
|
||
|
// Convenience typedefs for bound argument types.
|
||
|
|
||
|
$for ARG [[
|
||
|
typedef UnwrapTraits<P$(ARG)> Bound$(ARG)UnwrapTraits;
|
||
|
|
||
|
]] $$ for ARG
|
||
|
|
||
|
|
||
|
]] $$ if ARITY > 0
|
||
|
|
||
|
$$ The extra [[ ]] is needed to massage spacing. Silly pump.py.
|
||
|
[[ ]]$if ARITY == 0 [[explicit ]]BindState(const Runnable& runnable
|
||
|
$if ARITY > 0 [[, ]] $for ARG , [[const P$(ARG)& p$(ARG)]])
|
||
|
: runnable_(runnable)[[]]
|
||
|
$if ARITY == 0 [[
|
||
|
{
|
||
|
|
||
|
]] $else [[
|
||
|
, $for ARG , [[
|
||
|
|
||
|
p$(ARG)_(p$(ARG))
|
||
|
]] {
|
||
|
MaybeRefcount<HasIsMethodTag<Runnable>::value, P1>::AddRef(p1_);
|
||
|
|
||
|
]]
|
||
|
}
|
||
|
|
||
|
virtual ~BindState() {
|
||
|
$if ARITY > 0 [[
|
||
|
MaybeRefcount<HasIsMethodTag<Runnable>::value, P1>::Release(p1_);
|
||
|
]]
|
||
|
}
|
||
|
|
||
|
RunnableType runnable_;
|
||
|
|
||
|
$for ARG [[
|
||
|
P$(ARG) p$(ARG)_;
|
||
|
|
||
|
]]
|
||
|
};
|
||
|
|
||
|
]] $$ for ARITY
|
||
|
|
||
|
} // namespace internal
|
||
|
} // namespace base
|
||
|
|
||
|
#endif // BASE_BIND_INTERNAL_H_
|