/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkLazyFnPtr_DEFINED #define SkLazyFnPtr_DEFINED /** Declare a lazily-chosen static function pointer of type F. * * Example usage: * * typedef int (*FooImpl)(int, int); * * static FooImpl choose_foo() { return ... }; * * int Foo(int a, int b) { * SK_DECLARE_STATIC_LAZY_FN_PTR(FooImpl, foo, choose_foo); * return foo.get()(a, b); * } * * You can think of SK_DECLARE_STATIC_LAZY_FN_PTR as a cheaper specialization of SkOnce. * There is no mutex, and in the fast path, no memory barriers are issued. * * This must be used in a global or function scope, not as a class member. */ #define SK_DECLARE_STATIC_LAZY_FN_PTR(F, name, Choose) static Private::SkLazyFnPtr<F, Choose> name // Everything below here is private implementation details. Don't touch, don't even look. #include "SkDynamicAnnotations.h" #include "SkThreadPriv.h" namespace Private { // This has no constructor and must be zero-initialized (the macro above does this). template <typename F, F (*Choose)()> class SkLazyFnPtr { public: F get() { // First, try reading to see if it's already set. F fn = (F)SK_ANNOTATE_UNPROTECTED_READ(fPtr); if (fn != NULL) { return fn; } // We think it's not already set. fn = Choose(); // No particular memory barriers needed; we're not guarding anything but the pointer itself. F prev = (F)sk_atomic_cas(&fPtr, NULL, (void*)fn); // If prev != NULL, someone snuck in and set fPtr concurrently. // If prev == NULL, we did write fn to fPtr. return prev != NULL ? prev : fn; } private: void* fPtr; }; } // namespace Private #endif//SkLazyFnPtr_DEFINED