clang/test/CodeGen/aapcs64-align.cpp - llvm-project.git - Git at Google

 // REQUIRES: arm-registered-target
 // RUN: %clang_cc1 -triple aarch64-none-elf \
 // RUN:   -O2 \
 // RUN:   -emit-llvm -fexperimental-max-bitint-width=1024 -o - %s | FileCheck %s

 extern "C" {

 // CHECK: @sizeof_OverSizedBitfield ={{.*}} global i32 8
 // CHECK: @alignof_OverSizedBitfield ={{.*}} global i32 8
 // CHECK: @sizeof_VeryOverSizedBitfield ={{.*}} global i32 16
 // CHECK: @alignof_VeryOverSizedBitfield ={{.*}} global i32 16
 // CHECK: @sizeof_RidiculouslyOverSizedBitfield ={{.*}} global i32 32
 // CHECK: @alignof_RidiculouslyOverSizedBitfield ={{.*}} global i32 16

 // Base case, nothing interesting.
 struct S {
   long x, y;
 };

 void f0(long, S);
 void f0m(long, long, long, long, long, S);
 void g0() {
   S s = {6, 7};
   f0(1, s);
   f0m(1, 2, 3, 4, 5, s);
 }
 // CHECK: define{{.*}} void @g0
 // CHECK: call void @f0(i64 noundef 1, [2 x i64] [i64 6, i64 7]
 // CHECK: call void @f0m{{.*}}[2 x i64] [i64 6, i64 7]
 // CHECK: declare void @f0(i64 noundef, [2 x i64])
 // CHECK: declare void @f0m(i64 noundef, i64 noundef, i64 noundef, i64 noundef, i64 noundef, [2 x i64])

 // Aligned struct, passed according to its natural alignment.
 struct __attribute__((aligned(16))) S16 {
   long x, y;
 } s16;

 void f1(long, S16);
 void f1m(long, long, long, long, long, S16);
 void g1() {
   S16 s = {6, 7};
   f1(1, s);
   f1m(1, 2, 3, 4, 5, s);
 }
 // CHECK: define{{.*}} void @g1
 // CHECK: call void @f1{{.*}}[2 x i64] [i64 6, i64 7]
 // CHECK: call void @f1m{{.*}}[2 x i64] [i64 6, i64 7]
 // CHECK: declare void @f1(i64 noundef, [2 x i64])
 // CHECK: declare void @f1m(i64 noundef, i64 noundef, i64 noundef, i64 noundef, i64 noundef, [2 x i64])

 // Increased natural alignment.
 struct SF16 {
   long x __attribute__((aligned(16)));
   long y;
 };

 void f3(long, SF16);
 void f3m(long, long, long, long, long, SF16);
 void g3() {
   SF16 s = {6, 7};
   f3(1, s);
   f3m(1, 2, 3, 4, 5, s);
 }
 // CHECK: define{{.*}} void @g3
 // CHECK: call void @f3(i64 noundef 1, i128 129127208515966861318)
 // CHECK: call void @f3m(i64 noundef 1, i64 noundef 2, i64 noundef 3, i64 noundef 4, i64 noundef 5, i128 129127208515966861318)
 // CHECK: declare void @f3(i64 noundef, i128)
 // CHECK: declare void @f3m(i64 noundef, i64 noundef, i64 noundef, i64 noundef, i64 noundef, i128)


 // Packed structure.
 struct  __attribute__((packed)) P {
   int x;
   long u;
 };

 void f4(int, P);
 void f4m(int, int, int, int, int, P);
 void g4() {
   P s = {6, 7};
   f4(1, s);
   f4m(1, 2, 3, 4, 5, s);
 }
 // CHECK: define{{.*}} void @g4()
 // CHECK: call void @f4(i32 noundef 1, [2 x i64] [i64 30064771078, i64 0])
 // CHECK: void @f4m(i32 noundef 1, i32 noundef 2, i32 noundef 3, i32 noundef 4, i32 noundef 5, [2 x i64] [i64 30064771078, i64 0])
 // CHECK: declare void @f4(i32 noundef, [2 x i64])
 // CHECK: declare void @f4m(i32 noundef, i32 noundef, i32 noundef, i32 noundef, i32 noundef, [2 x i64])


 // Packed structure, overaligned, same as above.
 struct  __attribute__((packed, aligned(16))) P16 {
   int x;
   long y;
 };

 void f5(int, P16);
 void f5m(int, int, int, int, int, P16);
   void g5() {
     P16 s = {6, 7};
     f5(1, s);
     f5m(1, 2, 3, 4, 5, s);
 }
 // CHECK: define{{.*}} void @g5()
 // CHECK: call void @f5(i32 noundef 1, [2 x i64] [i64 30064771078, i64 0])
 // CHECK: void @f5m(i32 noundef 1, i32 noundef 2, i32 noundef 3, i32 noundef 4, i32 noundef 5, [2 x i64] [i64 30064771078, i64 0])
 // CHECK: declare void @f5(i32 noundef, [2 x i64])
 // CHECK: declare void @f5m(i32 noundef, i32 noundef, i32 noundef, i32 noundef, i32 noundef, [2 x i64])

 //BitInt alignment
 struct BITINT129 {
     char ch;
     unsigned _BitInt(129) v;
 };

 int test_bitint129(){
   return __builtin_offsetof(struct BITINT129, v);
 }
 // CHECK:  ret i32 16

 struct BITINT127 {
     char ch;
     _BitInt(127) v;
 };

 int test_bitint127(){
   return __builtin_offsetof(struct BITINT127, v);
 }
 // CHECK:  ret i32 16

 struct BITINT63 {
     char ch;
     _BitInt(63) v;
 };

 int test_bitint63(){
   return __builtin_offsetof(struct BITINT63, v);
 }
 // CHECK:  ret i32 8

 struct BITINT32 {
     char ch;
     unsigned _BitInt(32) v;
 };

 int test_bitint32(){
   return __builtin_offsetof(struct BITINT32, v);
 }
 // CHECK:  ret i32 4

 struct BITINT9 {
     char ch;
     unsigned _BitInt(9) v;
 };

 int test_bitint9(){
   return __builtin_offsetof(struct BITINT9, v);
 }
 // CHECK:  ret i32 2

 struct BITINT8 {
     char ch;
     unsigned _BitInt(8) v;
 };

 int test_bitint8(){
   return __builtin_offsetof(struct BITINT8, v);
 }
 // CHECK:  ret i32 1

 // Over-sized bitfield, which results in a 64-bit container type, so 64-bit
 // alignment.
 struct OverSizedBitfield {
   int x : 64;
 };

 unsigned sizeof_OverSizedBitfield = sizeof(OverSizedBitfield);
 unsigned alignof_OverSizedBitfield = alignof(OverSizedBitfield);

 // CHECK: define{{.*}} void @g7
 // CHECK: call void @f7(i32 noundef 1, i64 42)
 // CHECK: declare void @f7(i32 noundef, i64)
 void f7(int a, OverSizedBitfield b);
 void g7() {
   OverSizedBitfield s = {42};
   f7(1, s);
 }

 // AAPCS64 does have a 128-bit integer fundamental data type, so this gets a
 // 128-bit container with 128-bit alignment. This is just within the limit of
 // what can be passed directly.
 struct VeryOverSizedBitfield {
   int x : 128;
 };

 unsigned sizeof_VeryOverSizedBitfield = sizeof(VeryOverSizedBitfield);
 unsigned alignof_VeryOverSizedBitfield = alignof(VeryOverSizedBitfield);

 // CHECK: define{{.*}} void @g8
 // CHECK: call void @f8(i32 noundef 1, i128 42)
 // CHECK: declare void @f8(i32 noundef, i128)
 void f8(int a, VeryOverSizedBitfield b);
 void g8() {
   VeryOverSizedBitfield s = {42};
   f8(1, s);
 }

 // There are no bigger fundamental data types, so this gets a 128-bit container
 // and 128 bits of padding, giving the struct a size of 32 bytes, and an
 // alignment of 16 bytes. This is over the PCS size limit of 16 bytes, so it
 // will be passed indirectly.
 struct RidiculouslyOverSizedBitfield {
   int x : 256;
 };

 unsigned sizeof_RidiculouslyOverSizedBitfield = sizeof(RidiculouslyOverSizedBitfield);
 unsigned alignof_RidiculouslyOverSizedBitfield = alignof(RidiculouslyOverSizedBitfield);

 // CHECK: define{{.*}} void @g9
 // CHECK: call void @f9(i32 noundef 1, ptr noundef nonnull %agg.tmp)
 // CHECK: declare void @f9(i32 noundef, ptr noundef)
 void f9(int a, RidiculouslyOverSizedBitfield b);
 void g9() {
   RidiculouslyOverSizedBitfield s = {42};
   f9(1, s);
 }

 }
	// REQUIRES: arm-registered-target
	// RUN: %clang_cc1 -triple aarch64-none-elf \
	// RUN: -O2 \
	// RUN: -emit-llvm -fexperimental-max-bitint-width=1024 -o - %s \| FileCheck %s

	extern "C" {

	// CHECK: @sizeof_OverSizedBitfield ={{.*}} global i32 8
	// CHECK: @alignof_OverSizedBitfield ={{.*}} global i32 8
	// CHECK: @sizeof_VeryOverSizedBitfield ={{.*}} global i32 16
	// CHECK: @alignof_VeryOverSizedBitfield ={{.*}} global i32 16
	// CHECK: @sizeof_RidiculouslyOverSizedBitfield ={{.*}} global i32 32
	// CHECK: @alignof_RidiculouslyOverSizedBitfield ={{.*}} global i32 16

	// Base case, nothing interesting.
	struct S {
	long x, y;
	};

	void f0(long, S);
	void f0m(long, long, long, long, long, S);
	void g0() {
	S s = {6, 7};
	f0(1, s);
	f0m(1, 2, 3, 4, 5, s);
	}
	// CHECK: define{{.*}} void @g0
	// CHECK: call void @f0(i64 noundef 1, [2 x i64] [i64 6, i64 7]
	// CHECK: call void @f0m{{.*}}[2 x i64] [i64 6, i64 7]
	// CHECK: declare void @f0(i64 noundef, [2 x i64])
	// CHECK: declare void @f0m(i64 noundef, i64 noundef, i64 noundef, i64 noundef, i64 noundef, [2 x i64])

	// Aligned struct, passed according to its natural alignment.
	struct __attribute__((aligned(16))) S16 {
	long x, y;
	} s16;

	void f1(long, S16);
	void f1m(long, long, long, long, long, S16);
	void g1() {
	S16 s = {6, 7};
	f1(1, s);
	f1m(1, 2, 3, 4, 5, s);
	}
	// CHECK: define{{.*}} void @g1
	// CHECK: call void @f1{{.*}}[2 x i64] [i64 6, i64 7]
	// CHECK: call void @f1m{{.*}}[2 x i64] [i64 6, i64 7]
	// CHECK: declare void @f1(i64 noundef, [2 x i64])
	// CHECK: declare void @f1m(i64 noundef, i64 noundef, i64 noundef, i64 noundef, i64 noundef, [2 x i64])

	// Increased natural alignment.
	struct SF16 {
	long x __attribute__((aligned(16)));
	long y;
	};

	void f3(long, SF16);
	void f3m(long, long, long, long, long, SF16);
	void g3() {
	SF16 s = {6, 7};
	f3(1, s);
	f3m(1, 2, 3, 4, 5, s);
	}
	// CHECK: define{{.*}} void @g3
	// CHECK: call void @f3(i64 noundef 1, i128 129127208515966861318)
	// CHECK: call void @f3m(i64 noundef 1, i64 noundef 2, i64 noundef 3, i64 noundef 4, i64 noundef 5, i128 129127208515966861318)
	// CHECK: declare void @f3(i64 noundef, i128)
	// CHECK: declare void @f3m(i64 noundef, i64 noundef, i64 noundef, i64 noundef, i64 noundef, i128)


	// Packed structure.
	struct __attribute__((packed)) P {
	int x;
	long u;
	};

	void f4(int, P);
	void f4m(int, int, int, int, int, P);
	void g4() {
	P s = {6, 7};
	f4(1, s);
	f4m(1, 2, 3, 4, 5, s);
	}
	// CHECK: define{{.*}} void @g4()
	// CHECK: call void @f4(i32 noundef 1, [2 x i64] [i64 30064771078, i64 0])
	// CHECK: void @f4m(i32 noundef 1, i32 noundef 2, i32 noundef 3, i32 noundef 4, i32 noundef 5, [2 x i64] [i64 30064771078, i64 0])
	// CHECK: declare void @f4(i32 noundef, [2 x i64])
	// CHECK: declare void @f4m(i32 noundef, i32 noundef, i32 noundef, i32 noundef, i32 noundef, [2 x i64])


	// Packed structure, overaligned, same as above.
	struct __attribute__((packed, aligned(16))) P16 {
	int x;
	long y;
	};

	void f5(int, P16);
	void f5m(int, int, int, int, int, P16);
	void g5() {
	P16 s = {6, 7};
	f5(1, s);
	f5m(1, 2, 3, 4, 5, s);
	}
	// CHECK: define{{.*}} void @g5()
	// CHECK: call void @f5(i32 noundef 1, [2 x i64] [i64 30064771078, i64 0])
	// CHECK: void @f5m(i32 noundef 1, i32 noundef 2, i32 noundef 3, i32 noundef 4, i32 noundef 5, [2 x i64] [i64 30064771078, i64 0])
	// CHECK: declare void @f5(i32 noundef, [2 x i64])
	// CHECK: declare void @f5m(i32 noundef, i32 noundef, i32 noundef, i32 noundef, i32 noundef, [2 x i64])

	//BitInt alignment
	struct BITINT129 {
	char ch;
	unsigned _BitInt(129) v;
	};

	int test_bitint129(){
	return __builtin_offsetof(struct BITINT129, v);
	}
	// CHECK: ret i32 16

	struct BITINT127 {
	char ch;
	_BitInt(127) v;
	};

	int test_bitint127(){
	return __builtin_offsetof(struct BITINT127, v);
	}
	// CHECK: ret i32 16

	struct BITINT63 {
	char ch;
	_BitInt(63) v;
	};

	int test_bitint63(){
	return __builtin_offsetof(struct BITINT63, v);
	}
	// CHECK: ret i32 8

	struct BITINT32 {
	char ch;
	unsigned _BitInt(32) v;
	};

	int test_bitint32(){
	return __builtin_offsetof(struct BITINT32, v);
	}
	// CHECK: ret i32 4

	struct BITINT9 {
	char ch;
	unsigned _BitInt(9) v;
	};

	int test_bitint9(){
	return __builtin_offsetof(struct BITINT9, v);
	}
	// CHECK: ret i32 2

	struct BITINT8 {
	char ch;
	unsigned _BitInt(8) v;
	};

	int test_bitint8(){
	return __builtin_offsetof(struct BITINT8, v);
	}
	// CHECK: ret i32 1

	// Over-sized bitfield, which results in a 64-bit container type, so 64-bit
	// alignment.
	struct OverSizedBitfield {
	int x : 64;
	};

	unsigned sizeof_OverSizedBitfield = sizeof(OverSizedBitfield);
	unsigned alignof_OverSizedBitfield = alignof(OverSizedBitfield);

	// CHECK: define{{.*}} void @g7
	// CHECK: call void @f7(i32 noundef 1, i64 42)
	// CHECK: declare void @f7(i32 noundef, i64)
	void f7(int a, OverSizedBitfield b);
	void g7() {
	OverSizedBitfield s = {42};
	f7(1, s);
	}

	// AAPCS64 does have a 128-bit integer fundamental data type, so this gets a
	// 128-bit container with 128-bit alignment. This is just within the limit of
	// what can be passed directly.
	struct VeryOverSizedBitfield {
	int x : 128;
	};

	unsigned sizeof_VeryOverSizedBitfield = sizeof(VeryOverSizedBitfield);
	unsigned alignof_VeryOverSizedBitfield = alignof(VeryOverSizedBitfield);

	// CHECK: define{{.*}} void @g8
	// CHECK: call void @f8(i32 noundef 1, i128 42)
	// CHECK: declare void @f8(i32 noundef, i128)
	void f8(int a, VeryOverSizedBitfield b);
	void g8() {
	VeryOverSizedBitfield s = {42};
	f8(1, s);
	}

	// There are no bigger fundamental data types, so this gets a 128-bit container
	// and 128 bits of padding, giving the struct a size of 32 bytes, and an
	// alignment of 16 bytes. This is over the PCS size limit of 16 bytes, so it
	// will be passed indirectly.
	struct RidiculouslyOverSizedBitfield {
	int x : 256;
	};

	unsigned sizeof_RidiculouslyOverSizedBitfield = sizeof(RidiculouslyOverSizedBitfield);
	unsigned alignof_RidiculouslyOverSizedBitfield = alignof(RidiculouslyOverSizedBitfield);

	// CHECK: define{{.*}} void @g9
	// CHECK: call void @f9(i32 noundef 1, ptr noundef nonnull %agg.tmp)
	// CHECK: declare void @f9(i32 noundef, ptr noundef)
	void f9(int a, RidiculouslyOverSizedBitfield b);
	void g9() {
	RidiculouslyOverSizedBitfield s = {42};
	f9(1, s);
	}

	}