src/third_party/llvm-project/clang/test/CodeGenOpenCL/amdgpu-abi-struct-coerce.cl - cobalt - Git at Google

 // REQUIRES: amdgpu-registered-target
 // RUN: %clang_cc1 -triple amdgcn-unknown-unknown -S -emit-llvm -o - %s | FileCheck %s
 // RUN: %clang_cc1 -triple r600-unknown-unknown -S -emit-llvm -o - %s | FileCheck %s

 typedef __attribute__(( ext_vector_type(2) )) char char2;
 typedef __attribute__(( ext_vector_type(3) )) char char3;
 typedef __attribute__(( ext_vector_type(4) )) char char4;

 typedef __attribute__(( ext_vector_type(2) )) short short2;
 typedef __attribute__(( ext_vector_type(3) )) short short3;
 typedef __attribute__(( ext_vector_type(4) )) short short4;

 typedef __attribute__(( ext_vector_type(2) )) int int2;
 typedef __attribute__(( ext_vector_type(3) )) int int3;
 typedef __attribute__(( ext_vector_type(4) )) int int4;
 typedef __attribute__(( ext_vector_type(16) )) int int16;
 typedef __attribute__(( ext_vector_type(32) )) int int32;

 // CHECK: %struct.empty_struct = type {}
 typedef struct empty_struct
 {
 } empty_struct;

 // CHECK-NOT: %struct.single_element_struct_arg
 typedef struct single_element_struct_arg
 {
     int i;
 } single_element_struct_arg_t;

 // CHECK-NOT: %struct.nested_single_element_struct_arg
 typedef struct nested_single_element_struct_arg
 {
   single_element_struct_arg_t i;
 } nested_single_element_struct_arg_t;

 // CHECK: %struct.struct_arg = type { i32, float, i32 }
 typedef struct struct_arg
 {
     int i1;
     float f;
     int i2;
 } struct_arg_t;

 // CHECK: %struct.struct_padding_arg = type { i8, i64 }
 typedef struct struct_padding_arg
 {
   char i1;
   long f;
 } struct_padding_arg;

 // CHECK: %struct.struct_of_arrays_arg = type { [2 x i32], float, [4 x i32], [3 x float], i32 }
 typedef struct struct_of_arrays_arg
 {
     int i1[2];
     float f1;
     int i2[4];
     float f2[3];
     int i3;
 } struct_of_arrays_arg_t;

 // CHECK: %struct.struct_of_structs_arg = type { i32, float, %struct.struct_arg, i32 }
 typedef struct struct_of_structs_arg
 {
     int i1;
     float f1;
     struct_arg_t s1;
     int i2;
 } struct_of_structs_arg_t;

 // CHECK: %union.transparent_u = type { i32 }
 typedef union
 {
   int b1;
   float b2;
 } transparent_u __attribute__((__transparent_union__));

 // CHECK: %struct.single_array_element_struct_arg = type { [4 x i32] }
 typedef struct single_array_element_struct_arg
 {
     int i[4];
 } single_array_element_struct_arg_t;

 // CHECK: %struct.single_struct_element_struct_arg = type { %struct.inner }
 // CHECK: %struct.inner = type { i32, i64 }
 typedef struct single_struct_element_struct_arg
 {
   struct inner {
     int a;
     long b;
   } s;
 } single_struct_element_struct_arg_t;

 // CHECK: %struct.different_size_type_pair
 typedef struct different_size_type_pair {
   long l;
   int i;
 } different_size_type_pair;

 // CHECK: %struct.flexible_array = type { i32, [0 x i32] }
 typedef struct flexible_array
 {
   int i;
   int flexible[];
 } flexible_array;

 // CHECK: %struct.struct_arr16 = type { [16 x i32] }
 typedef struct struct_arr16
 {
     int arr[16];
 } struct_arr16;

 // CHECK: %struct.struct_arr32 = type { [32 x i32] }
 typedef struct struct_arr32
 {
     int arr[32];
 } struct_arr32;

 // CHECK: %struct.struct_arr33 = type { [33 x i32] }
 typedef struct struct_arr33
 {
     int arr[33];
 } struct_arr33;

 // CHECK: %struct.struct_char_arr32 = type { [32 x i8] }
 typedef struct struct_char_arr32
 {
   char arr[32];
 } struct_char_arr32;

 // CHECK-NOT: %struct.struct_char_x8
 typedef struct struct_char_x8 {
   char x, y, z, w;
   char a, b, c, d;
 } struct_char_x8;

 // CHECK-NOT: %struct.struct_char_x4
 typedef struct struct_char_x4 {
   char x, y, z, w;
 } struct_char_x4;

 // CHECK-NOT: %struct.struct_char_x3
 typedef struct struct_char_x3 {
   char x, y, z;
 } struct_char_x3;

 // CHECK-NOT: %struct.struct_char_x2
 typedef struct struct_char_x2 {
   char x, y;
 } struct_char_x2;

 // CHECK-NOT: %struct.struct_char_x1
 typedef struct struct_char_x1 {
   char x;
 } struct_char_x1;

 // 4 registers from fields, 5 if padding included.
 // CHECK: %struct.nested = type { i8, i64 }
 // CHECK: %struct.num_regs_nested_struct = type { i32, %struct.nested }
 typedef struct num_regs_nested_struct {
   int x;
   struct nested {
     char z;
     long y;
   } inner;
 } num_regs_nested_struct;

 // CHECK: %struct.double_nested = type { %struct.inner_inner }
 // CHECK: %struct.inner_inner = type { i8, i32, i8 }
 // CHECK: %struct.double_nested_struct = type { i32, %struct.double_nested, i16 }
 typedef struct double_nested_struct {
   int x;
   struct double_nested {
     struct inner_inner {
       char y;
       int q;
       char z;
     } inner_inner;
   } inner;

   short w;
 } double_nested_struct;

 // This is a large struct, but uses fewer registers than the limit.
 // CHECK: %struct.large_struct_padding = type { i8, i32, i8, i32, i8, i8, i16, i16, [3 x i8], i64, i32, i8, i32, i16, i8 }
 typedef struct large_struct_padding {
   char e0;
   int e1;
   char e2;
   int e3;
   char e4;
   char e5;
   short e6;
   short e7;
   char e8[3];
   long e9;
   int e10;
   char e11;
   int e12;
   short e13;
   char e14;
 } large_struct_padding;

 // CHECK: %struct.int3_pair = type { <3 x i32>, <3 x i32> }
 // The number of registers computed should be 6, not 8.
 typedef struct int3_pair {
 	int3 dx;
 	int3 dy;
 } int3_pair;

 // CHECK: %struct.struct_4regs = type { i32, i32, i32, i32 }
 typedef struct struct_4regs
 {
   int x;
   int y;
   int z;
   int w;
 } struct_4regs;

 // CHECK: void @kernel_empty_struct_arg(%struct.empty_struct %s.coerce)
 __kernel void kernel_empty_struct_arg(empty_struct s) { }

 // CHECK: void @kernel_single_element_struct_arg(i32 %arg1.coerce)
 __kernel void kernel_single_element_struct_arg(single_element_struct_arg_t arg1) { }

 // CHECK: void @kernel_nested_single_element_struct_arg(i32 %arg1.coerce)
 __kernel void kernel_nested_single_element_struct_arg(nested_single_element_struct_arg_t arg1) { }

 // CHECK: void @kernel_struct_arg(%struct.struct_arg %arg1.coerce)
 __kernel void kernel_struct_arg(struct_arg_t arg1) { }

 // CHECK: void @kernel_struct_padding_arg(%struct.struct_padding_arg %arg1.coerce)
 __kernel void kernel_struct_padding_arg(struct_padding_arg arg1) { }

 // CHECK: void @kernel_test_struct_of_arrays_arg(%struct.struct_of_arrays_arg %arg1.coerce)
 __kernel void kernel_test_struct_of_arrays_arg(struct_of_arrays_arg_t arg1) { }

 // CHECK: void @kernel_struct_of_structs_arg(%struct.struct_of_structs_arg %arg1.coerce)
 __kernel void kernel_struct_of_structs_arg(struct_of_structs_arg_t arg1) { }

 // CHECK: void @test_kernel_transparent_union_arg(%union.transparent_u %u.coerce)
 __kernel void test_kernel_transparent_union_arg(transparent_u u) { }

 // CHECK: void @kernel_single_array_element_struct_arg(%struct.single_array_element_struct_arg %arg1.coerce)
 __kernel void kernel_single_array_element_struct_arg(single_array_element_struct_arg_t arg1) { }

 // CHECK: void @kernel_single_struct_element_struct_arg(%struct.single_struct_element_struct_arg %arg1.coerce)
 __kernel void kernel_single_struct_element_struct_arg(single_struct_element_struct_arg_t arg1) { }

 // CHECK: void @kernel_different_size_type_pair_arg(%struct.different_size_type_pair %arg1.coerce)
 __kernel void kernel_different_size_type_pair_arg(different_size_type_pair arg1) { }

 // CHECK: define void @func_f32_arg(float %arg)
 void func_f32_arg(float arg) { }

 // CHECK: define void @func_v2i16_arg(<2 x i16> %arg)
 void func_v2i16_arg(short2 arg) { }

 // CHECK: define void @func_v3i32_arg(<3 x i32> %arg)
 void func_v3i32_arg(int3 arg) { }

 // CHECK: define void @func_v4i32_arg(<4 x i32> %arg)
 void func_v4i32_arg(int4 arg) { }

 // CHECK: define void @func_v16i32_arg(<16 x i32> %arg)
 void func_v16i32_arg(int16 arg) { }

 // CHECK: define void @func_v32i32_arg(<32 x i32> %arg)
 void func_v32i32_arg(int32 arg) { }

 // CHECK: define void @func_empty_struct_arg()
 void func_empty_struct_arg(empty_struct empty) { }

 // CHECK: void @func_single_element_struct_arg(i32 %arg1.coerce)
 void func_single_element_struct_arg(single_element_struct_arg_t arg1) { }

 // CHECK: void @func_nested_single_element_struct_arg(i32 %arg1.coerce)
 void func_nested_single_element_struct_arg(nested_single_element_struct_arg_t arg1) { }

 // CHECK: void @func_struct_arg(i32 %arg1.coerce0, float %arg1.coerce1, i32 %arg1.coerce2)
 void func_struct_arg(struct_arg_t arg1) { }

 // CHECK: void @func_struct_padding_arg(i8 %arg1.coerce0, i64 %arg1.coerce1)
 void func_struct_padding_arg(struct_padding_arg arg1) { }

 // CHECK: define void @func_struct_char_x8([2 x i32] %arg.coerce)
 void func_struct_char_x8(struct_char_x8 arg) { }

 // CHECK: define void @func_struct_char_x4(i32 %arg.coerce)
 void func_struct_char_x4(struct_char_x4 arg) { }

 // CHECK: define void @func_struct_char_x3(i32 %arg.coerce)
 void func_struct_char_x3(struct_char_x3 arg) { }

 // CHECK: define void @func_struct_char_x2(i16 %arg.coerce)
 void func_struct_char_x2(struct_char_x2 arg) { }

 // CHECK: define void @func_struct_char_x1(i8 %arg.coerce)
 void func_struct_char_x1(struct_char_x1 arg) { }

 // CHECK: void @func_transparent_union_arg(i32 %u.coerce)
 void func_transparent_union_arg(transparent_u u) { }

 // CHECK: void @func_single_array_element_struct_arg([4 x i32] %arg1.coerce)
 void func_single_array_element_struct_arg(single_array_element_struct_arg_t arg1) { }

 // CHECK: void @func_single_struct_element_struct_arg(%struct.inner %arg1.coerce)
 void func_single_struct_element_struct_arg(single_struct_element_struct_arg_t arg1) { }

 // CHECK: void @func_different_size_type_pair_arg(i64 %arg1.coerce0, i32 %arg1.coerce1)
 void func_different_size_type_pair_arg(different_size_type_pair arg1) { }

 // CHECK: void @func_flexible_array_arg(%struct.flexible_array addrspace(5)* byval nocapture align 4 %arg)
 void func_flexible_array_arg(flexible_array arg) { }

 // CHECK: define float @func_f32_ret()
 float func_f32_ret()
 {
   return 0.0f;
 }

 // CHECK: define void @func_empty_struct_ret()
 empty_struct func_empty_struct_ret()
 {
   empty_struct s = {};
   return s;
 }

 // CHECK: define i32 @single_element_struct_ret()
 // CHECK: ret i32 0
 single_element_struct_arg_t single_element_struct_ret()
 {
   single_element_struct_arg_t s = { 0 };
   return s;
 }

 // CHECK: define i32 @nested_single_element_struct_ret()
 // CHECK: ret i32 0
 nested_single_element_struct_arg_t nested_single_element_struct_ret()
 {
   nested_single_element_struct_arg_t s = { 0 };
   return s;
 }

 // CHECK: define %struct.struct_arg @func_struct_ret()
 // CHECK: ret %struct.struct_arg zeroinitializer
 struct_arg_t func_struct_ret()
 {
   struct_arg_t s = { 0 };
   return s;
 }

 // CHECK: define %struct.struct_padding_arg @func_struct_padding_ret()
 // CHECK: ret %struct.struct_padding_arg zeroinitializer
 struct_padding_arg func_struct_padding_ret()
 {
   struct_padding_arg s = { 0 };
   return s;
 }

 // CHECK: define [2 x i32] @func_struct_char_x8_ret()
 // CHECK: ret [2 x i32] zeroinitializer
 struct_char_x8 func_struct_char_x8_ret()
 {
   struct_char_x8 s = { 0 };
   return s;
 }

 // CHECK: define i32 @func_struct_char_x4_ret()
 // CHECK: ret i32 0
 struct_char_x4 func_struct_char_x4_ret()
 {
   struct_char_x4 s = { 0 };
   return s;
 }

 // CHECK: define i32 @func_struct_char_x3_ret()
 // CHECK: ret i32 0
 struct_char_x3 func_struct_char_x3_ret()
 {
   struct_char_x3 s = { 0 };
   return s;
 }

 // CHECK: define i16 @func_struct_char_x2_ret()
 struct_char_x2 func_struct_char_x2_ret()
 {
   struct_char_x2 s = { 0 };
   return s;
 }

 // CHECK: define i8 @func_struct_char_x1_ret()
 // CHECK: ret i8 0
 struct_char_x1 func_struct_char_x1_ret()
 {
   struct_char_x1 s = { 0 };
   return s;
 }

 // CHECK: define %struct.struct_arr16 @func_ret_struct_arr16()
 // CHECK: ret %struct.struct_arr16 zeroinitializer
 struct_arr16 func_ret_struct_arr16()
 {
   struct_arr16 s = { 0 };
   return s;
 }

 // CHECK: define void @func_ret_struct_arr32(%struct.struct_arr32 addrspace(5)* noalias nocapture sret %agg.result)
 struct_arr32 func_ret_struct_arr32()
 {
   struct_arr32 s = { 0 };
   return s;
 }

 // CHECK: define void @func_ret_struct_arr33(%struct.struct_arr33 addrspace(5)* noalias nocapture sret %agg.result)
 struct_arr33 func_ret_struct_arr33()
 {
   struct_arr33 s = { 0 };
   return s;
 }

 // CHECK: define %struct.struct_char_arr32 @func_ret_struct_char_arr32()
 struct_char_arr32 func_ret_struct_char_arr32()
 {
   struct_char_arr32 s = { 0 };
   return s;
 }

 // CHECK: define i32 @func_transparent_union_ret() local_unnamed_addr #1 {
 // CHECK: ret i32 0
 transparent_u func_transparent_union_ret()
 {
   transparent_u u = { 0 };
   return u;
 }

 // CHECK: define %struct.different_size_type_pair @func_different_size_type_pair_ret()
 different_size_type_pair func_different_size_type_pair_ret()
 {
   different_size_type_pair s = { 0 };
   return s;
 }

 // CHECK: define void @func_flexible_array_ret(%struct.flexible_array addrspace(5)* noalias nocapture sret %agg.result)
 flexible_array func_flexible_array_ret()
 {
   flexible_array s = { 0 };
   return s;
 }

 // CHECK: define void @func_reg_state_lo(<4 x i32> %arg0, <4 x i32> %arg1, <4 x i32> %arg2, i32 %arg3, i32 %s.coerce0, float %s.coerce1, i32 %s.coerce2)
 void func_reg_state_lo(int4 arg0, int4 arg1, int4 arg2, int arg3, struct_arg_t s) { }

 // CHECK: define void @func_reg_state_hi(<4 x i32> %arg0, <4 x i32> %arg1, <4 x i32> %arg2, i32 %arg3, i32 %arg4, %struct.struct_arg addrspace(5)* byval nocapture align 4 %s)
 void func_reg_state_hi(int4 arg0, int4 arg1, int4 arg2, int arg3, int arg4, struct_arg_t s) { }

 // XXX - Why don't the inner structs flatten?
 // CHECK: define void @func_reg_state_num_regs_nested_struct(<4 x i32> %arg0, i32 %arg1, i32 %arg2.coerce0, %struct.nested %arg2.coerce1, i32 %arg3.coerce0, %struct.nested %arg3.coerce1, %struct.num_regs_nested_struct addrspace(5)* byval nocapture align 8 %arg4)
 void func_reg_state_num_regs_nested_struct(int4 arg0, int arg1, num_regs_nested_struct arg2, num_regs_nested_struct arg3, num_regs_nested_struct arg4) { }

 // CHECK: define void @func_double_nested_struct_arg(<4 x i32> %arg0, i32 %arg1, i32 %arg2.coerce0, %struct.double_nested %arg2.coerce1, i16 %arg2.coerce2)
 void func_double_nested_struct_arg(int4 arg0, int arg1, double_nested_struct arg2) { }

 // CHECK: define %struct.double_nested_struct @func_double_nested_struct_ret(<4 x i32> %arg0, i32 %arg1)
 double_nested_struct func_double_nested_struct_ret(int4 arg0, int arg1) {
   double_nested_struct s = { 0 };
   return s;
 }

 // CHECK: define void @func_large_struct_padding_arg_direct(i8 %arg.coerce0, i32 %arg.coerce1, i8 %arg.coerce2, i32 %arg.coerce3, i8 %arg.coerce4, i8 %arg.coerce5, i16 %arg.coerce6, i16 %arg.coerce7, [3 x i8] %arg.coerce8, i64 %arg.coerce9, i32 %arg.coerce10, i8 %arg.coerce11, i32 %arg.coerce12, i16 %arg.coerce13, i8 %arg.coerce14)
 void func_large_struct_padding_arg_direct(large_struct_padding arg) { }

 // CHECK: define void @func_large_struct_padding_arg_store(%struct.large_struct_padding addrspace(1)* nocapture %out, %struct.large_struct_padding addrspace(5)* byval nocapture readonly align 8 %arg)
 void func_large_struct_padding_arg_store(global large_struct_padding* out, large_struct_padding arg) {
   *out = arg;
 }

 // CHECK: define void @v3i32_reg_count(<3 x i32> %arg1, <3 x i32> %arg2, <3 x i32> %arg3, <3 x i32> %arg4, i32 %arg5.coerce0, float %arg5.coerce1, i32 %arg5.coerce2)
 void v3i32_reg_count(int3 arg1, int3 arg2, int3 arg3, int3 arg4, struct_arg_t arg5) { }

 // Function signature from blender, nothing should be passed byval. The v3i32
 // should not count as 4 passed registers.
 // CHECK: define void @v3i32_pair_reg_count(%struct.int3_pair addrspace(5)* nocapture %arg0, <3 x i32> %arg1.coerce0, <3 x i32> %arg1.coerce1, <3 x i32> %arg2, <3 x i32> %arg3.coerce0, <3 x i32> %arg3.coerce1, <3 x i32> %arg4, float %arg5)
 void v3i32_pair_reg_count(int3_pair *arg0, int3_pair arg1, int3 arg2, int3_pair arg3, int3 arg4, float arg5) { }

 // Each short4 should fit pack into 2 registers.
 // CHECK: define void @v4i16_reg_count(<4 x i16> %arg0, <4 x i16> %arg1, <4 x i16> %arg2, <4 x i16> %arg3, <4 x i16> %arg4, <4 x i16> %arg5, i32 %arg6.coerce0, i32 %arg6.coerce1, i32 %arg6.coerce2, i32 %arg6.coerce3)
 void v4i16_reg_count(short4 arg0, short4 arg1, short4 arg2, short4 arg3,
                      short4 arg4, short4 arg5, struct_4regs arg6) { }

 // CHECK: define void @v4i16_pair_reg_count_over(<4 x i16> %arg0, <4 x i16> %arg1, <4 x i16> %arg2, <4 x i16> %arg3, <4 x i16> %arg4, <4 x i16> %arg5, <4 x i16> %arg6, %struct.struct_4regs addrspace(5)* byval nocapture align 4 %arg7)
 void v4i16_pair_reg_count_over(short4 arg0, short4 arg1, short4 arg2, short4 arg3,
                                short4 arg4, short4 arg5, short4 arg6, struct_4regs arg7) { }

 // CHECK: define void @v3i16_reg_count(<3 x i16> %arg0, <3 x i16> %arg1, <3 x i16> %arg2, <3 x i16> %arg3, <3 x i16> %arg4, <3 x i16> %arg5, i32 %arg6.coerce0, i32 %arg6.coerce1, i32 %arg6.coerce2, i32 %arg6.coerce3)
 void v3i16_reg_count(short3 arg0, short3 arg1, short3 arg2, short3 arg3,
                      short3 arg4, short3 arg5, struct_4regs arg6) { }

 // CHECK: define void @v3i16_reg_count_over(<3 x i16> %arg0, <3 x i16> %arg1, <3 x i16> %arg2, <3 x i16> %arg3, <3 x i16> %arg4, <3 x i16> %arg5, <3 x i16> %arg6, %struct.struct_4regs addrspace(5)* byval nocapture align 4 %arg7)
 void v3i16_reg_count_over(short3 arg0, short3 arg1, short3 arg2, short3 arg3,
                           short3 arg4, short3 arg5, short3 arg6, struct_4regs arg7) { }

 // CHECK: define void @v2i16_reg_count(<2 x i16> %arg0, <2 x i16> %arg1, <2 x i16> %arg2, <2 x i16> %arg3, <2 x i16> %arg4, <2 x i16> %arg5, <2 x i16> %arg6, <2 x i16> %arg7, <2 x i16> %arg8, <2 x i16> %arg9, <2 x i16> %arg10, <2 x i16> %arg11, i32 %arg13.coerce0, i32 %arg13.coerce1, i32 %arg13.coerce2, i32 %arg13.coerce3)
 void v2i16_reg_count(short2 arg0, short2 arg1, short2 arg2, short2 arg3,
                      short2 arg4, short2 arg5, short2 arg6, short2 arg7,
                      short2 arg8, short2 arg9, short2 arg10, short2 arg11,
                      struct_4regs arg13) { }

 // CHECK: define void @v2i16_reg_count_over(<2 x i16> %arg0, <2 x i16> %arg1, <2 x i16> %arg2, <2 x i16> %arg3, <2 x i16> %arg4, <2 x i16> %arg5, <2 x i16> %arg6, <2 x i16> %arg7, <2 x i16> %arg8, <2 x i16> %arg9, <2 x i16> %arg10, <2 x i16> %arg11, <2 x i16> %arg12, %struct.struct_4regs addrspace(5)* byval nocapture align 4 %arg13)
 void v2i16_reg_count_over(short2 arg0, short2 arg1, short2 arg2, short2 arg3,
                           short2 arg4, short2 arg5, short2 arg6, short2 arg7,
                           short2 arg8, short2 arg9, short2 arg10, short2 arg11,
                           short2 arg12, struct_4regs arg13) { }

 // CHECK: define void @v2i8_reg_count(<2 x i8> %arg0, <2 x i8> %arg1, <2 x i8> %arg2, <2 x i8> %arg3, <2 x i8> %arg4, <2 x i8> %arg5, i32 %arg6.coerce0, i32 %arg6.coerce1, i32 %arg6.coerce2, i32 %arg6.coerce3)
 void v2i8_reg_count(char2 arg0, char2 arg1, char2 arg2, char2 arg3,
                     char2 arg4, char2 arg5, struct_4regs arg6) { }

 // CHECK: define void @v2i8_reg_count_over(<2 x i8> %arg0, <2 x i8> %arg1, <2 x i8> %arg2, <2 x i8> %arg3, <2 x i8> %arg4, <2 x i8> %arg5, i32 %arg6, %struct.struct_4regs addrspace(5)* byval nocapture align 4 %arg7)
 void v2i8_reg_count_over(char2 arg0, char2 arg1, char2 arg2, char2 arg3,
                          char2 arg4, char2 arg5, int arg6, struct_4regs arg7) { }

 // CHECK: define void @num_regs_left_64bit_aggregate(<4 x i32> %arg0, <4 x i32> %arg1, <4 x i32> %arg2, <3 x i32> %arg3, [2 x i32] %arg4.coerce, i32 %arg5)
 void num_regs_left_64bit_aggregate(int4 arg0, int4 arg1, int4 arg2, int3 arg3, struct_char_x8 arg4, int arg5) { }
	// REQUIRES: amdgpu-registered-target
	// RUN: %clang_cc1 -triple amdgcn-unknown-unknown -S -emit-llvm -o - %s \| FileCheck %s
	// RUN: %clang_cc1 -triple r600-unknown-unknown -S -emit-llvm -o - %s \| FileCheck %s

	typedef __attribute__(( ext_vector_type(2) )) char char2;
	typedef __attribute__(( ext_vector_type(3) )) char char3;
	typedef __attribute__(( ext_vector_type(4) )) char char4;

	typedef __attribute__(( ext_vector_type(2) )) short short2;
	typedef __attribute__(( ext_vector_type(3) )) short short3;
	typedef __attribute__(( ext_vector_type(4) )) short short4;

	typedef __attribute__(( ext_vector_type(2) )) int int2;
	typedef __attribute__(( ext_vector_type(3) )) int int3;
	typedef __attribute__(( ext_vector_type(4) )) int int4;
	typedef __attribute__(( ext_vector_type(16) )) int int16;
	typedef __attribute__(( ext_vector_type(32) )) int int32;

	// CHECK: %struct.empty_struct = type {}
	typedef struct empty_struct
	{
	} empty_struct;

	// CHECK-NOT: %struct.single_element_struct_arg
	typedef struct single_element_struct_arg
	{
	int i;
	} single_element_struct_arg_t;

	// CHECK-NOT: %struct.nested_single_element_struct_arg
	typedef struct nested_single_element_struct_arg
	{
	single_element_struct_arg_t i;
	} nested_single_element_struct_arg_t;

	// CHECK: %struct.struct_arg = type { i32, float, i32 }
	typedef struct struct_arg
	{
	int i1;
	float f;
	int i2;
	} struct_arg_t;

	// CHECK: %struct.struct_padding_arg = type { i8, i64 }
	typedef struct struct_padding_arg
	{
	char i1;
	long f;
	} struct_padding_arg;

	// CHECK: %struct.struct_of_arrays_arg = type { [2 x i32], float, [4 x i32], [3 x float], i32 }
	typedef struct struct_of_arrays_arg
	{
	int i1[2];
	float f1;
	int i2[4];
	float f2[3];
	int i3;
	} struct_of_arrays_arg_t;

	// CHECK: %struct.struct_of_structs_arg = type { i32, float, %struct.struct_arg, i32 }
	typedef struct struct_of_structs_arg
	{
	int i1;
	float f1;
	struct_arg_t s1;
	int i2;
	} struct_of_structs_arg_t;

	// CHECK: %union.transparent_u = type { i32 }
	typedef union
	{
	int b1;
	float b2;
	} transparent_u __attribute__((__transparent_union__));

	// CHECK: %struct.single_array_element_struct_arg = type { [4 x i32] }
	typedef struct single_array_element_struct_arg
	{
	int i[4];
	} single_array_element_struct_arg_t;

	// CHECK: %struct.single_struct_element_struct_arg = type { %struct.inner }
	// CHECK: %struct.inner = type { i32, i64 }
	typedef struct single_struct_element_struct_arg
	{
	struct inner {
	int a;
	long b;
	} s;
	} single_struct_element_struct_arg_t;

	// CHECK: %struct.different_size_type_pair
	typedef struct different_size_type_pair {
	long l;
	int i;
	} different_size_type_pair;

	// CHECK: %struct.flexible_array = type { i32, [0 x i32] }
	typedef struct flexible_array
	{
	int i;
	int flexible[];
	} flexible_array;

	// CHECK: %struct.struct_arr16 = type { [16 x i32] }
	typedef struct struct_arr16
	{
	int arr[16];
	} struct_arr16;

	// CHECK: %struct.struct_arr32 = type { [32 x i32] }
	typedef struct struct_arr32
	{
	int arr[32];
	} struct_arr32;

	// CHECK: %struct.struct_arr33 = type { [33 x i32] }
	typedef struct struct_arr33
	{
	int arr[33];
	} struct_arr33;

	// CHECK: %struct.struct_char_arr32 = type { [32 x i8] }
	typedef struct struct_char_arr32
	{
	char arr[32];
	} struct_char_arr32;

	// CHECK-NOT: %struct.struct_char_x8
	typedef struct struct_char_x8 {
	char x, y, z, w;
	char a, b, c, d;
	} struct_char_x8;

	// CHECK-NOT: %struct.struct_char_x4
	typedef struct struct_char_x4 {
	char x, y, z, w;
	} struct_char_x4;

	// CHECK-NOT: %struct.struct_char_x3
	typedef struct struct_char_x3 {
	char x, y, z;
	} struct_char_x3;

	// CHECK-NOT: %struct.struct_char_x2
	typedef struct struct_char_x2 {
	char x, y;
	} struct_char_x2;

	// CHECK-NOT: %struct.struct_char_x1
	typedef struct struct_char_x1 {
	char x;
	} struct_char_x1;

	// 4 registers from fields, 5 if padding included.
	// CHECK: %struct.nested = type { i8, i64 }
	// CHECK: %struct.num_regs_nested_struct = type { i32, %struct.nested }
	typedef struct num_regs_nested_struct {
	int x;
	struct nested {
	char z;
	long y;
	} inner;
	} num_regs_nested_struct;

	// CHECK: %struct.double_nested = type { %struct.inner_inner }
	// CHECK: %struct.inner_inner = type { i8, i32, i8 }
	// CHECK: %struct.double_nested_struct = type { i32, %struct.double_nested, i16 }
	typedef struct double_nested_struct {
	int x;
	struct double_nested {
	struct inner_inner {
	char y;
	int q;
	char z;
	} inner_inner;
	} inner;

	short w;
	} double_nested_struct;

	// This is a large struct, but uses fewer registers than the limit.
	// CHECK: %struct.large_struct_padding = type { i8, i32, i8, i32, i8, i8, i16, i16, [3 x i8], i64, i32, i8, i32, i16, i8 }
	typedef struct large_struct_padding {
	char e0;
	int e1;
	char e2;
	int e3;
	char e4;
	char e5;
	short e6;
	short e7;
	char e8[3];
	long e9;
	int e10;
	char e11;
	int e12;
	short e13;
	char e14;
	} large_struct_padding;

	// CHECK: %struct.int3_pair = type { <3 x i32>, <3 x i32> }
	// The number of registers computed should be 6, not 8.
	typedef struct int3_pair {
	int3 dx;
	int3 dy;
	} int3_pair;

	// CHECK: %struct.struct_4regs = type { i32, i32, i32, i32 }
	typedef struct struct_4regs
	{
	int x;
	int y;
	int z;
	int w;
	} struct_4regs;

	// CHECK: void @kernel_empty_struct_arg(%struct.empty_struct %s.coerce)
	__kernel void kernel_empty_struct_arg(empty_struct s) { }

	// CHECK: void @kernel_single_element_struct_arg(i32 %arg1.coerce)
	__kernel void kernel_single_element_struct_arg(single_element_struct_arg_t arg1) { }

	// CHECK: void @kernel_nested_single_element_struct_arg(i32 %arg1.coerce)
	__kernel void kernel_nested_single_element_struct_arg(nested_single_element_struct_arg_t arg1) { }

	// CHECK: void @kernel_struct_arg(%struct.struct_arg %arg1.coerce)
	__kernel void kernel_struct_arg(struct_arg_t arg1) { }

	// CHECK: void @kernel_struct_padding_arg(%struct.struct_padding_arg %arg1.coerce)
	__kernel void kernel_struct_padding_arg(struct_padding_arg arg1) { }

	// CHECK: void @kernel_test_struct_of_arrays_arg(%struct.struct_of_arrays_arg %arg1.coerce)
	__kernel void kernel_test_struct_of_arrays_arg(struct_of_arrays_arg_t arg1) { }

	// CHECK: void @kernel_struct_of_structs_arg(%struct.struct_of_structs_arg %arg1.coerce)
	__kernel void kernel_struct_of_structs_arg(struct_of_structs_arg_t arg1) { }

	// CHECK: void @test_kernel_transparent_union_arg(%union.transparent_u %u.coerce)
	__kernel void test_kernel_transparent_union_arg(transparent_u u) { }

	// CHECK: void @kernel_single_array_element_struct_arg(%struct.single_array_element_struct_arg %arg1.coerce)
	__kernel void kernel_single_array_element_struct_arg(single_array_element_struct_arg_t arg1) { }

	// CHECK: void @kernel_single_struct_element_struct_arg(%struct.single_struct_element_struct_arg %arg1.coerce)
	__kernel void kernel_single_struct_element_struct_arg(single_struct_element_struct_arg_t arg1) { }

	// CHECK: void @kernel_different_size_type_pair_arg(%struct.different_size_type_pair %arg1.coerce)
	__kernel void kernel_different_size_type_pair_arg(different_size_type_pair arg1) { }

	// CHECK: define void @func_f32_arg(float %arg)
	void func_f32_arg(float arg) { }

	// CHECK: define void @func_v2i16_arg(<2 x i16> %arg)
	void func_v2i16_arg(short2 arg) { }

	// CHECK: define void @func_v3i32_arg(<3 x i32> %arg)
	void func_v3i32_arg(int3 arg) { }

	// CHECK: define void @func_v4i32_arg(<4 x i32> %arg)
	void func_v4i32_arg(int4 arg) { }

	// CHECK: define void @func_v16i32_arg(<16 x i32> %arg)
	void func_v16i32_arg(int16 arg) { }

	// CHECK: define void @func_v32i32_arg(<32 x i32> %arg)
	void func_v32i32_arg(int32 arg) { }

	// CHECK: define void @func_empty_struct_arg()
	void func_empty_struct_arg(empty_struct empty) { }

	// CHECK: void @func_single_element_struct_arg(i32 %arg1.coerce)
	void func_single_element_struct_arg(single_element_struct_arg_t arg1) { }

	// CHECK: void @func_nested_single_element_struct_arg(i32 %arg1.coerce)
	void func_nested_single_element_struct_arg(nested_single_element_struct_arg_t arg1) { }

	// CHECK: void @func_struct_arg(i32 %arg1.coerce0, float %arg1.coerce1, i32 %arg1.coerce2)
	void func_struct_arg(struct_arg_t arg1) { }

	// CHECK: void @func_struct_padding_arg(i8 %arg1.coerce0, i64 %arg1.coerce1)
	void func_struct_padding_arg(struct_padding_arg arg1) { }

	// CHECK: define void @func_struct_char_x8([2 x i32] %arg.coerce)
	void func_struct_char_x8(struct_char_x8 arg) { }

	// CHECK: define void @func_struct_char_x4(i32 %arg.coerce)
	void func_struct_char_x4(struct_char_x4 arg) { }

	// CHECK: define void @func_struct_char_x3(i32 %arg.coerce)
	void func_struct_char_x3(struct_char_x3 arg) { }

	// CHECK: define void @func_struct_char_x2(i16 %arg.coerce)
	void func_struct_char_x2(struct_char_x2 arg) { }

	// CHECK: define void @func_struct_char_x1(i8 %arg.coerce)
	void func_struct_char_x1(struct_char_x1 arg) { }

	// CHECK: void @func_transparent_union_arg(i32 %u.coerce)
	void func_transparent_union_arg(transparent_u u) { }

	// CHECK: void @func_single_array_element_struct_arg([4 x i32] %arg1.coerce)
	void func_single_array_element_struct_arg(single_array_element_struct_arg_t arg1) { }

	// CHECK: void @func_single_struct_element_struct_arg(%struct.inner %arg1.coerce)
	void func_single_struct_element_struct_arg(single_struct_element_struct_arg_t arg1) { }

	// CHECK: void @func_different_size_type_pair_arg(i64 %arg1.coerce0, i32 %arg1.coerce1)
	void func_different_size_type_pair_arg(different_size_type_pair arg1) { }

	// CHECK: void @func_flexible_array_arg(%struct.flexible_array addrspace(5)* byval nocapture align 4 %arg)
	void func_flexible_array_arg(flexible_array arg) { }

	// CHECK: define float @func_f32_ret()
	float func_f32_ret()
	{
	return 0.0f;
	}

	// CHECK: define void @func_empty_struct_ret()
	empty_struct func_empty_struct_ret()
	{
	empty_struct s = {};
	return s;
	}

	// CHECK: define i32 @single_element_struct_ret()
	// CHECK: ret i32 0
	single_element_struct_arg_t single_element_struct_ret()
	{
	single_element_struct_arg_t s = { 0 };
	return s;
	}

	// CHECK: define i32 @nested_single_element_struct_ret()
	// CHECK: ret i32 0
	nested_single_element_struct_arg_t nested_single_element_struct_ret()
	{
	nested_single_element_struct_arg_t s = { 0 };
	return s;
	}

	// CHECK: define %struct.struct_arg @func_struct_ret()
	// CHECK: ret %struct.struct_arg zeroinitializer
	struct_arg_t func_struct_ret()
	{
	struct_arg_t s = { 0 };
	return s;
	}

	// CHECK: define %struct.struct_padding_arg @func_struct_padding_ret()
	// CHECK: ret %struct.struct_padding_arg zeroinitializer
	struct_padding_arg func_struct_padding_ret()
	{
	struct_padding_arg s = { 0 };
	return s;
	}

	// CHECK: define [2 x i32] @func_struct_char_x8_ret()
	// CHECK: ret [2 x i32] zeroinitializer
	struct_char_x8 func_struct_char_x8_ret()
	{
	struct_char_x8 s = { 0 };
	return s;
	}

	// CHECK: define i32 @func_struct_char_x4_ret()
	// CHECK: ret i32 0
	struct_char_x4 func_struct_char_x4_ret()
	{
	struct_char_x4 s = { 0 };
	return s;
	}

	// CHECK: define i32 @func_struct_char_x3_ret()
	// CHECK: ret i32 0
	struct_char_x3 func_struct_char_x3_ret()
	{
	struct_char_x3 s = { 0 };
	return s;
	}

	// CHECK: define i16 @func_struct_char_x2_ret()
	struct_char_x2 func_struct_char_x2_ret()
	{
	struct_char_x2 s = { 0 };
	return s;
	}

	// CHECK: define i8 @func_struct_char_x1_ret()
	// CHECK: ret i8 0
	struct_char_x1 func_struct_char_x1_ret()
	{
	struct_char_x1 s = { 0 };
	return s;
	}

	// CHECK: define %struct.struct_arr16 @func_ret_struct_arr16()
	// CHECK: ret %struct.struct_arr16 zeroinitializer
	struct_arr16 func_ret_struct_arr16()
	{
	struct_arr16 s = { 0 };
	return s;
	}

	// CHECK: define void @func_ret_struct_arr32(%struct.struct_arr32 addrspace(5)* noalias nocapture sret %agg.result)
	struct_arr32 func_ret_struct_arr32()
	{
	struct_arr32 s = { 0 };
	return s;
	}

	// CHECK: define void @func_ret_struct_arr33(%struct.struct_arr33 addrspace(5)* noalias nocapture sret %agg.result)
	struct_arr33 func_ret_struct_arr33()
	{
	struct_arr33 s = { 0 };
	return s;
	}

	// CHECK: define %struct.struct_char_arr32 @func_ret_struct_char_arr32()
	struct_char_arr32 func_ret_struct_char_arr32()
	{
	struct_char_arr32 s = { 0 };
	return s;
	}

	// CHECK: define i32 @func_transparent_union_ret() local_unnamed_addr #1 {
	// CHECK: ret i32 0
	transparent_u func_transparent_union_ret()
	{
	transparent_u u = { 0 };
	return u;
	}

	// CHECK: define %struct.different_size_type_pair @func_different_size_type_pair_ret()
	different_size_type_pair func_different_size_type_pair_ret()
	{
	different_size_type_pair s = { 0 };
	return s;
	}

	// CHECK: define void @func_flexible_array_ret(%struct.flexible_array addrspace(5)* noalias nocapture sret %agg.result)
	flexible_array func_flexible_array_ret()
	{
	flexible_array s = { 0 };
	return s;
	}

	// CHECK: define void @func_reg_state_lo(<4 x i32> %arg0, <4 x i32> %arg1, <4 x i32> %arg2, i32 %arg3, i32 %s.coerce0, float %s.coerce1, i32 %s.coerce2)
	void func_reg_state_lo(int4 arg0, int4 arg1, int4 arg2, int arg3, struct_arg_t s) { }

	// CHECK: define void @func_reg_state_hi(<4 x i32> %arg0, <4 x i32> %arg1, <4 x i32> %arg2, i32 %arg3, i32 %arg4, %struct.struct_arg addrspace(5)* byval nocapture align 4 %s)
	void func_reg_state_hi(int4 arg0, int4 arg1, int4 arg2, int arg3, int arg4, struct_arg_t s) { }

	// XXX - Why don't the inner structs flatten?
	// CHECK: define void @func_reg_state_num_regs_nested_struct(<4 x i32> %arg0, i32 %arg1, i32 %arg2.coerce0, %struct.nested %arg2.coerce1, i32 %arg3.coerce0, %struct.nested %arg3.coerce1, %struct.num_regs_nested_struct addrspace(5)* byval nocapture align 8 %arg4)
	void func_reg_state_num_regs_nested_struct(int4 arg0, int arg1, num_regs_nested_struct arg2, num_regs_nested_struct arg3, num_regs_nested_struct arg4) { }

	// CHECK: define void @func_double_nested_struct_arg(<4 x i32> %arg0, i32 %arg1, i32 %arg2.coerce0, %struct.double_nested %arg2.coerce1, i16 %arg2.coerce2)
	void func_double_nested_struct_arg(int4 arg0, int arg1, double_nested_struct arg2) { }

	// CHECK: define %struct.double_nested_struct @func_double_nested_struct_ret(<4 x i32> %arg0, i32 %arg1)
	double_nested_struct func_double_nested_struct_ret(int4 arg0, int arg1) {
	double_nested_struct s = { 0 };
	return s;
	}

	// CHECK: define void @func_large_struct_padding_arg_direct(i8 %arg.coerce0, i32 %arg.coerce1, i8 %arg.coerce2, i32 %arg.coerce3, i8 %arg.coerce4, i8 %arg.coerce5, i16 %arg.coerce6, i16 %arg.coerce7, [3 x i8] %arg.coerce8, i64 %arg.coerce9, i32 %arg.coerce10, i8 %arg.coerce11, i32 %arg.coerce12, i16 %arg.coerce13, i8 %arg.coerce14)
	void func_large_struct_padding_arg_direct(large_struct_padding arg) { }

	// CHECK: define void @func_large_struct_padding_arg_store(%struct.large_struct_padding addrspace(1)* nocapture %out, %struct.large_struct_padding addrspace(5)* byval nocapture readonly align 8 %arg)
	void func_large_struct_padding_arg_store(global large_struct_padding* out, large_struct_padding arg) {
	*out = arg;
	}

	// CHECK: define void @v3i32_reg_count(<3 x i32> %arg1, <3 x i32> %arg2, <3 x i32> %arg3, <3 x i32> %arg4, i32 %arg5.coerce0, float %arg5.coerce1, i32 %arg5.coerce2)
	void v3i32_reg_count(int3 arg1, int3 arg2, int3 arg3, int3 arg4, struct_arg_t arg5) { }

	// Function signature from blender, nothing should be passed byval. The v3i32
	// should not count as 4 passed registers.
	// CHECK: define void @v3i32_pair_reg_count(%struct.int3_pair addrspace(5)* nocapture %arg0, <3 x i32> %arg1.coerce0, <3 x i32> %arg1.coerce1, <3 x i32> %arg2, <3 x i32> %arg3.coerce0, <3 x i32> %arg3.coerce1, <3 x i32> %arg4, float %arg5)
	void v3i32_pair_reg_count(int3_pair *arg0, int3_pair arg1, int3 arg2, int3_pair arg3, int3 arg4, float arg5) { }

	// Each short4 should fit pack into 2 registers.
	// CHECK: define void @v4i16_reg_count(<4 x i16> %arg0, <4 x i16> %arg1, <4 x i16> %arg2, <4 x i16> %arg3, <4 x i16> %arg4, <4 x i16> %arg5, i32 %arg6.coerce0, i32 %arg6.coerce1, i32 %arg6.coerce2, i32 %arg6.coerce3)
	void v4i16_reg_count(short4 arg0, short4 arg1, short4 arg2, short4 arg3,
	short4 arg4, short4 arg5, struct_4regs arg6) { }

	// CHECK: define void @v4i16_pair_reg_count_over(<4 x i16> %arg0, <4 x i16> %arg1, <4 x i16> %arg2, <4 x i16> %arg3, <4 x i16> %arg4, <4 x i16> %arg5, <4 x i16> %arg6, %struct.struct_4regs addrspace(5)* byval nocapture align 4 %arg7)
	void v4i16_pair_reg_count_over(short4 arg0, short4 arg1, short4 arg2, short4 arg3,
	short4 arg4, short4 arg5, short4 arg6, struct_4regs arg7) { }

	// CHECK: define void @v3i16_reg_count(<3 x i16> %arg0, <3 x i16> %arg1, <3 x i16> %arg2, <3 x i16> %arg3, <3 x i16> %arg4, <3 x i16> %arg5, i32 %arg6.coerce0, i32 %arg6.coerce1, i32 %arg6.coerce2, i32 %arg6.coerce3)
	void v3i16_reg_count(short3 arg0, short3 arg1, short3 arg2, short3 arg3,
	short3 arg4, short3 arg5, struct_4regs arg6) { }

	// CHECK: define void @v3i16_reg_count_over(<3 x i16> %arg0, <3 x i16> %arg1, <3 x i16> %arg2, <3 x i16> %arg3, <3 x i16> %arg4, <3 x i16> %arg5, <3 x i16> %arg6, %struct.struct_4regs addrspace(5)* byval nocapture align 4 %arg7)
	void v3i16_reg_count_over(short3 arg0, short3 arg1, short3 arg2, short3 arg3,
	short3 arg4, short3 arg5, short3 arg6, struct_4regs arg7) { }

	// CHECK: define void @v2i16_reg_count(<2 x i16> %arg0, <2 x i16> %arg1, <2 x i16> %arg2, <2 x i16> %arg3, <2 x i16> %arg4, <2 x i16> %arg5, <2 x i16> %arg6, <2 x i16> %arg7, <2 x i16> %arg8, <2 x i16> %arg9, <2 x i16> %arg10, <2 x i16> %arg11, i32 %arg13.coerce0, i32 %arg13.coerce1, i32 %arg13.coerce2, i32 %arg13.coerce3)
	void v2i16_reg_count(short2 arg0, short2 arg1, short2 arg2, short2 arg3,
	short2 arg4, short2 arg5, short2 arg6, short2 arg7,
	short2 arg8, short2 arg9, short2 arg10, short2 arg11,
	struct_4regs arg13) { }

	// CHECK: define void @v2i16_reg_count_over(<2 x i16> %arg0, <2 x i16> %arg1, <2 x i16> %arg2, <2 x i16> %arg3, <2 x i16> %arg4, <2 x i16> %arg5, <2 x i16> %arg6, <2 x i16> %arg7, <2 x i16> %arg8, <2 x i16> %arg9, <2 x i16> %arg10, <2 x i16> %arg11, <2 x i16> %arg12, %struct.struct_4regs addrspace(5)* byval nocapture align 4 %arg13)
	void v2i16_reg_count_over(short2 arg0, short2 arg1, short2 arg2, short2 arg3,
	short2 arg4, short2 arg5, short2 arg6, short2 arg7,
	short2 arg8, short2 arg9, short2 arg10, short2 arg11,
	short2 arg12, struct_4regs arg13) { }

	// CHECK: define void @v2i8_reg_count(<2 x i8> %arg0, <2 x i8> %arg1, <2 x i8> %arg2, <2 x i8> %arg3, <2 x i8> %arg4, <2 x i8> %arg5, i32 %arg6.coerce0, i32 %arg6.coerce1, i32 %arg6.coerce2, i32 %arg6.coerce3)
	void v2i8_reg_count(char2 arg0, char2 arg1, char2 arg2, char2 arg3,
	char2 arg4, char2 arg5, struct_4regs arg6) { }

	// CHECK: define void @v2i8_reg_count_over(<2 x i8> %arg0, <2 x i8> %arg1, <2 x i8> %arg2, <2 x i8> %arg3, <2 x i8> %arg4, <2 x i8> %arg5, i32 %arg6, %struct.struct_4regs addrspace(5)* byval nocapture align 4 %arg7)
	void v2i8_reg_count_over(char2 arg0, char2 arg1, char2 arg2, char2 arg3,
	char2 arg4, char2 arg5, int arg6, struct_4regs arg7) { }

	// CHECK: define void @num_regs_left_64bit_aggregate(<4 x i32> %arg0, <4 x i32> %arg1, <4 x i32> %arg2, <3 x i32> %arg3, [2 x i32] %arg4.coerce, i32 %arg5)
	void num_regs_left_64bit_aggregate(int4 arg0, int4 arg1, int4 arg2, int3 arg3, struct_char_x8 arg4, int arg5) { }