Ruby 2.7.6p219 (2022-04-12 revision c9c2245c0a25176072e02db9254f0e0c84c805cd)
nested_struct11.c
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1/* Area: ffi_call, closure_call
2 Purpose: Check parameter passing with nested structs
3 of a single type. This tests the special cases
4 for homogeneous floating-point aggregates in the
5 AArch64 PCS.
6 Limitations: none.
7 PR: none.
8 Originator: ARM Ltd. */
9
10/* { dg-do run } */
11#include "ffitest.h"
12
13typedef struct A {
14 float a_x;
15 float a_y;
16} A;
17
18typedef struct B {
19 float b_x;
20 float b_y;
21} B;
22
23typedef struct C {
26} C;
27
28static C C_fn (int x, int y, int z, C source, int i, int j, int k)
29{
30 C result;
31 result.a.a_x = source.a.a_x;
32 result.a.a_y = source.a.a_y;
33 result.b.b_x = source.b.b_x;
34 result.b.b_y = source.b.b_y;
35
36 printf ("%d, %d, %d, %d, %d, %d\n", x, y, z, i, j, k);
37
38 printf ("%.1f, %.1f, %.1f, %.1f, "
39 "%.1f, %.1f, %.1f, %.1f\n",
40 source.a.a_x, source.a.a_y,
41 source.b.b_x, source.b.b_y,
42 result.a.a_x, result.a.a_y,
43 result.b.b_x, result.b.b_y);
44
45 return result;
46}
47
48int main (void)
49{
50 ffi_cif cif;
51
52 ffi_type* struct_fields_source_a[3];
53 ffi_type* struct_fields_source_b[3];
54 ffi_type* struct_fields_source_c[3];
55 ffi_type* arg_types[8];
56
57 ffi_type struct_type_a, struct_type_b, struct_type_c;
58
59 struct A source_fld_a = {1.0, 2.0};
60 struct B source_fld_b = {4.0, 8.0};
61 int k = 1;
62
63 struct C result;
64 struct C source = {source_fld_a, source_fld_b};
65
66 struct_type_a.size = 0;
67 struct_type_a.alignment = 0;
68 struct_type_a.type = FFI_TYPE_STRUCT;
69 struct_type_a.elements = struct_fields_source_a;
70
71 struct_type_b.size = 0;
72 struct_type_b.alignment = 0;
73 struct_type_b.type = FFI_TYPE_STRUCT;
74 struct_type_b.elements = struct_fields_source_b;
75
76 struct_type_c.size = 0;
77 struct_type_c.alignment = 0;
78 struct_type_c.type = FFI_TYPE_STRUCT;
79 struct_type_c.elements = struct_fields_source_c;
80
81 struct_fields_source_a[0] = &ffi_type_float;
82 struct_fields_source_a[1] = &ffi_type_float;
83 struct_fields_source_a[2] = NULL;
84
85 struct_fields_source_b[0] = &ffi_type_float;
86 struct_fields_source_b[1] = &ffi_type_float;
87 struct_fields_source_b[2] = NULL;
88
89 struct_fields_source_c[0] = &struct_type_a;
90 struct_fields_source_c[1] = &struct_type_b;
91 struct_fields_source_c[2] = NULL;
92
93 arg_types[0] = &ffi_type_sint32;
94 arg_types[1] = &ffi_type_sint32;
95 arg_types[2] = &ffi_type_sint32;
96 arg_types[3] = &struct_type_c;
97 arg_types[4] = &ffi_type_sint32;
98 arg_types[5] = &ffi_type_sint32;
99 arg_types[6] = &ffi_type_sint32;
100 arg_types[7] = NULL;
101
102 void *args[7];
103 args[0] = &k;
104 args[1] = &k;
105 args[2] = &k;
106 args[3] = &source;
107 args[4] = &k;
108 args[5] = &k;
109 args[6] = &k;
110 CHECK (ffi_prep_cif (&cif, FFI_DEFAULT_ABI, 7, &struct_type_c,
111 arg_types) == FFI_OK);
112
113 ffi_call (&cif, FFI_FN (C_fn), &result, args);
114 /* { dg-output "1, 1, 1, 1, 1, 1\n" } */
115 /* { dg-output "1.0, 2.0, 4.0, 8.0, 1.0, 2.0, 4.0, 8.0" } */
116 CHECK (result.a.a_x == source.a.a_x);
117 CHECK (result.a.a_y == source.a.a_y);
118 CHECK (result.b.b_x == source.b.b_x);
119 CHECK (result.b.b_y == source.b.b_y);
120 exit (0);
121}
void ffi_call(ffi_cif *cif, void(*fn)(void), void *rvalue, void **avalue)
Definition: ffi.c:813
@ FFI_DEFAULT_ABI
Definition: ffitarget.h:38
#define CHECK(sub)
Definition: compile.c:448
struct B B
int main(void)
struct A A
struct C C
ffi_status ffi_prep_cif(ffi_cif *cif, ffi_abi abi, unsigned int nargs, ffi_type *rtype, ffi_type **atypes)
Definition: prep_cif.c:226
#define NULL
int int int printf(const char *__restrict__,...) __attribute__((__format__(__printf__
uint32_t i
void exit(int __status) __attribute__((__noreturn__))
float a_x
float a_y
float b_y
float b_x