test/CodeGenCXX/static-local-in-local-class.cpp - clang - Git at Google

 // RUN: %clang_cc1 -triple x86_64-linux -fblocks -emit-llvm -o - %s -std=c++1y | FileCheck %s

 // CHECK: @"_ZZZNK17pr18020_constexpr3$_1clEvENKUlvE_clEvE2l2" =
 // CHECK: internal global i32* @"_ZZNK17pr18020_constexpr3$_1clEvE2l1"
 // CHECK: @_ZZL14deduced_returnvE1n = internal global i32 42
 // CHECK: @_ZZZL20block_deduced_returnvEUb_E1n = internal global i32 42
 // CHECK: @_ZZ18static_local_labelPvE1q = linkonce_odr global i8* blockaddress(@_Z18static_local_labelPv, %{{.*}})
 // CHECK: @"_ZZNK3$_2clEvE1x" = internal global i32 42

 namespace pr6769 {
 struct X {
   static void f();
 };

 void X::f() {
   static int *i;
   {
     struct Y {
       static void g() {
         i = new int();
 	*i = 100;
 	(*i) = (*i) +1;
       }
     };
     (void)Y::g();
   }
   (void)i;
 }
 }

 namespace pr7101 {
 void foo() {
     static int n = 0;
     struct Helper {
         static void Execute() {
             n++;
         }
     };
     Helper::Execute();
 }
 }

 // These tests all break the assumption that the static var decl has to be
 // emitted before use of the var decl.  This happens because we defer emission
 // of variables with internal linkage and no initialization side effects, such
 // as 'x'.  Then we hit operator()() in 'f', and emit the callee before we emit
 // the arguments, so we emit the innermost function first.

 namespace pr18020_lambda {
 // Referring to l1 before emitting it used to crash.
 auto x = []() {
   static int l1 = 0;
   return [] { return l1; };
 };
 int f() { return x()(); }
 }

 // CHECK-LABEL: define internal i32 @"_ZZNK14pr18020_lambda3$_0clEvENKUlvE_clEv"
 // CHECK: load i32, i32* @"_ZZNK14pr18020_lambda3$_0clEvE2l1"

 namespace pr18020_constexpr {
 // Taking the address of l1 in a constant expression used to crash.
 auto x = []() {
   static int l1 = 0;
   return [] {
     static int *l2 = &l1;
     return *l2;
   };
 };
 int f() { return x()(); }
 }

 // CHECK-LABEL: define internal i32 @"_ZZNK17pr18020_constexpr3$_1clEvENKUlvE_clEv"
 // CHECK: load i32*, i32** @"_ZZZNK17pr18020_constexpr3$_1clEvENKUlvE_clEvE2l2"

 // Lambda-less reduction that references l1 before emitting it.  This didn't
 // crash if you put it in a namespace.
 struct pr18020_class {
   auto operator()() {
     static int l1 = 0;
     struct U {
       int operator()() { return l1; }
     };
     return U();
   }
 };
 static pr18020_class x;
 int pr18020_f() { return x()(); }

 // CHECK-LABEL: define linkonce_odr i32 @_ZZN13pr18020_classclEvEN1UclEv
 // CHECK: load i32, i32* @_ZZN13pr18020_classclEvE2l1

 // In this test case, the function containing the static local will not be
 // emitted because it is unneeded. However, the operator call of the inner class
 // is called, and the static local is referenced and must be emitted.
 static auto deduced_return() {
   static int n = 42;
   struct S { int *operator()() { return &n; } };
   return S();
 }
 extern "C" int call_deduced_return_operator() {
   return *decltype(deduced_return())()();
 }

 // CHECK-LABEL: define i32 @call_deduced_return_operator()
 // CHECK: call i32* @_ZZL14deduced_returnvEN1SclEv(
 // CHECK: load i32, i32* %
 // CHECK: ret i32 %

 // CHECK-LABEL: define internal i32* @_ZZL14deduced_returnvEN1SclEv(%struct.S* %this)
 // CHECK: ret i32* @_ZZL14deduced_returnvE1n

 static auto block_deduced_return() {
   auto (^b)() = ^() {
     static int n = 42;
     struct S { int *operator()() { return &n; } };
     return S();
   };
   return b();
 }
 extern "C" int call_block_deduced_return() {
   return *decltype(block_deduced_return())()();
 }

 // CHECK-LABEL: define i32 @call_block_deduced_return()
 // CHECK: call i32* @_ZZZL20block_deduced_returnvEUb_EN1SclEv(
 // CHECK: load i32, i32* %
 // CHECK: ret i32 %

 // CHECK-LABEL: define internal i32* @_ZZZL20block_deduced_returnvEUb_EN1SclEv(%struct.S.6* %this) #1 align 2 {
 // CHECK: ret i32* @_ZZZL20block_deduced_returnvEUb_E1n

 inline auto static_local_label(void *p) {
   if (p)
     goto *p;
   static void *q = &&label;
   struct S { static void *get() { return q; } };
   return S();
 label:
   __builtin_abort();
 }
 void *global_label = decltype(static_local_label(0))::get();

 // CHECK-LABEL: define linkonce_odr i8* @_ZZ18static_local_labelPvEN1S3getEv()
 // CHECK: %[[lbl:[^ ]*]] = load i8*, i8** @_ZZ18static_local_labelPvE1q
 // CHECK: ret i8* %[[lbl]]

 auto global_lambda = []() {
   static int x = 42;
   struct S { static int *get() { return &x; } };
   return S();
 };
 extern "C" int use_global_lambda() {
   return *decltype(global_lambda())::get();
 }
 // CHECK-LABEL: define i32 @use_global_lambda()
 // CHECK: call i32* @"_ZZNK3$_2clEvEN1S3getEv"()

 // CHECK-LABEL: define internal i32* @"_ZZNK3$_2clEvEN1S3getEv"()
 // CHECK: ret i32* @"_ZZNK3$_2clEvE1x"
	// RUN: %clang_cc1 -triple x86_64-linux -fblocks -emit-llvm -o - %s -std=c++1y \| FileCheck %s

	// CHECK: @"_ZZZNK17pr18020_constexpr3$_1clEvENKUlvE_clEvE2l2" =
	// CHECK: internal global i32* @"_ZZNK17pr18020_constexpr3$_1clEvE2l1"
	// CHECK: @_ZZL14deduced_returnvE1n = internal global i32 42
	// CHECK: @_ZZZL20block_deduced_returnvEUb_E1n = internal global i32 42
	// CHECK: @_ZZ18static_local_labelPvE1q = linkonce_odr global i8* blockaddress(@_Z18static_local_labelPv, %{{.*}})
	// CHECK: @"_ZZNK3$_2clEvE1x" = internal global i32 42

	namespace pr6769 {
	struct X {
	static void f();
	};

	void X::f() {
	static int *i;
	{
	struct Y {
	static void g() {
	i = new int();
	*i = 100;
	(i) = (i) +1;
	}
	};
	(void)Y::g();
	}
	(void)i;
	}
	}

	namespace pr7101 {
	void foo() {
	static int n = 0;
	struct Helper {
	static void Execute() {
	n++;
	}
	};
	Helper::Execute();
	}
	}

	// These tests all break the assumption that the static var decl has to be
	// emitted before use of the var decl. This happens because we defer emission
	// of variables with internal linkage and no initialization side effects, such
	// as 'x'. Then we hit operator()() in 'f', and emit the callee before we emit
	// the arguments, so we emit the innermost function first.

	namespace pr18020_lambda {
	// Referring to l1 before emitting it used to crash.
	auto x = []() {
	static int l1 = 0;
	return [] { return l1; };
	};
	int f() { return x()(); }
	}

	// CHECK-LABEL: define internal i32 @"_ZZNK14pr18020_lambda3$_0clEvENKUlvE_clEv"
	// CHECK: load i32, i32* @"_ZZNK14pr18020_lambda3$_0clEvE2l1"

	namespace pr18020_constexpr {
	// Taking the address of l1 in a constant expression used to crash.
	auto x = []() {
	static int l1 = 0;
	return [] {
	static int *l2 = &l1;
	return *l2;
	};
	};
	int f() { return x()(); }
	}

	// CHECK-LABEL: define internal i32 @"_ZZNK17pr18020_constexpr3$_1clEvENKUlvE_clEv"
	// CHECK: load i32, i32* @"_ZZZNK17pr18020_constexpr3$_1clEvENKUlvE_clEvE2l2"

	// Lambda-less reduction that references l1 before emitting it. This didn't
	// crash if you put it in a namespace.
	struct pr18020_class {
	auto operator()() {
	static int l1 = 0;
	struct U {
	int operator()() { return l1; }
	};
	return U();
	}
	};
	static pr18020_class x;
	int pr18020_f() { return x()(); }

	// CHECK-LABEL: define linkonce_odr i32 @_ZZN13pr18020_classclEvEN1UclEv
	// CHECK: load i32, i32* @_ZZN13pr18020_classclEvE2l1

	// In this test case, the function containing the static local will not be
	// emitted because it is unneeded. However, the operator call of the inner class
	// is called, and the static local is referenced and must be emitted.
	static auto deduced_return() {
	static int n = 42;
	struct S { int *operator()() { return &n; } };
	return S();
	}
	extern "C" int call_deduced_return_operator() {
	return *decltype(deduced_return())()();
	}

	// CHECK-LABEL: define i32 @call_deduced_return_operator()
	// CHECK: call i32* @_ZZL14deduced_returnvEN1SclEv(
	// CHECK: load i32, i32* %
	// CHECK: ret i32 %

	// CHECK-LABEL: define internal i32* @_ZZL14deduced_returnvEN1SclEv(%struct.S* %this)
	// CHECK: ret i32* @_ZZL14deduced_returnvE1n

	static auto block_deduced_return() {
	auto (^b)() = ^() {
	static int n = 42;
	struct S { int *operator()() { return &n; } };
	return S();
	};
	return b();
	}
	extern "C" int call_block_deduced_return() {
	return *decltype(block_deduced_return())()();
	}

	// CHECK-LABEL: define i32 @call_block_deduced_return()
	// CHECK: call i32* @_ZZZL20block_deduced_returnvEUb_EN1SclEv(
	// CHECK: load i32, i32* %
	// CHECK: ret i32 %

	// CHECK-LABEL: define internal i32* @_ZZZL20block_deduced_returnvEUb_EN1SclEv(%struct.S.6* %this) #1 align 2 {
	// CHECK: ret i32* @_ZZZL20block_deduced_returnvEUb_E1n

	inline auto static_local_label(void *p) {
	if (p)
	goto *p;
	static void *q = &&label;
	struct S { static void *get() { return q; } };
	return S();
	label:
	__builtin_abort();
	}
	void *global_label = decltype(static_local_label(0))::get();

	// CHECK-LABEL: define linkonce_odr i8* @_ZZ18static_local_labelPvEN1S3getEv()
	// CHECK: %[[lbl:[^ ]]] = load i8, i8** @_ZZ18static_local_labelPvE1q
	// CHECK: ret i8* %[[lbl]]

	auto global_lambda = []() {
	static int x = 42;
	struct S { static int *get() { return &x; } };
	return S();
	};
	extern "C" int use_global_lambda() {
	return *decltype(global_lambda())::get();
	}
	// CHECK-LABEL: define i32 @use_global_lambda()
	// CHECK: call i32* @"_ZZNK3$_2clEvEN1S3getEv"()

	// CHECK-LABEL: define internal i32* @"_ZZNK3$_2clEvEN1S3getEv"()
	// CHECK: ret i32* @"_ZZNK3$_2clEvE1x"