Python code coverage for Modules/_ctypes/libffi/testsuite/libffi.call/stret_large.c

#	count	content
1	n/a	/* Area: ffi_call, closure_call
2	n/a	Purpose: Check structure returning with different structure size.
3	n/a	Depending on the ABI. Check bigger struct which overlaps
4	n/a	the gp and fp register count on Darwin/AIX/ppc64.
5	n/a	Limitations: none.
6	n/a	PR: none.
7	n/a	Originator: Blake Chaffin 6/21/2007 */
8	n/a
9	n/a	/* { dg-do run { xfail strongarm--* xscale--* } } */
10	n/a	#include "ffitest.h"
11	n/a
12	n/a	/* 13 FPRs: 104 bytes */
13	n/a	/* 14 FPRs: 112 bytes */
14	n/a
15	n/a	typedef struct struct_108byte {
16	n/a	double a;
17	n/a	double b;
18	n/a	double c;
19	n/a	double d;
20	n/a	double e;
21	n/a	double f;
22	n/a	double g;
23	n/a	double h;
24	n/a	double i;
25	n/a	double j;
26	n/a	double k;
27	n/a	double l;
28	n/a	double m;
29	n/a	int n;
30	n/a	} struct_108byte;
31	n/a
32	n/a	struct_108byte cls_struct_108byte_fn(
33	n/a	struct_108byte b0,
34	n/a	struct_108byte b1,
35	n/a	struct_108byte b2,
36	n/a	struct_108byte b3)
37	n/a	{
38	n/a	struct_108byte result;
39	n/a
40	n/a	result.a = b0.a + b1.a + b2.a + b3.a;
41	n/a	result.b = b0.b + b1.b + b2.b + b3.b;
42	n/a	result.c = b0.c + b1.c + b2.c + b3.c;
43	n/a	result.d = b0.d + b1.d + b2.d + b3.d;
44	n/a	result.e = b0.e + b1.e + b2.e + b3.e;
45	n/a	result.f = b0.f + b1.f + b2.f + b3.f;
46	n/a	result.g = b0.g + b1.g + b2.g + b3.g;
47	n/a	result.h = b0.h + b1.h + b2.h + b3.h;
48	n/a	result.i = b0.i + b1.i + b2.i + b3.i;
49	n/a	result.j = b0.j + b1.j + b2.j + b3.j;
50	n/a	result.k = b0.k + b1.k + b2.k + b3.k;
51	n/a	result.l = b0.l + b1.l + b2.l + b3.l;
52	n/a	result.m = b0.m + b1.m + b2.m + b3.m;
53	n/a	result.n = b0.n + b1.n + b2.n + b3.n;
54	n/a
55	n/a	printf("%g %g %g %g %g %g %g %g %g %g %g %g %g %d\n", result.a, result.b, result.c,
56	n/a	result.d, result.e, result.f, result.g, result.h, result.i,
57	n/a	result.j, result.k, result.l, result.m, result.n);
58	n/a
59	n/a	return result;
60	n/a	}
61	n/a
62	n/a	static void
63	n/a	cls_struct_108byte_gn(ffi_cif* cif __UNUSED__, void* resp, void** args, void* userdata __UNUSED__)
64	n/a	{
65	n/a	struct_108byte b0, b1, b2, b3;
66	n/a
67	n/a	b0 = (struct_108byte)(args[0]);
68	n/a	b1 = (struct_108byte)(args[1]);
69	n/a	b2 = (struct_108byte)(args[2]);
70	n/a	b3 = (struct_108byte)(args[3]);
71	n/a
72	n/a	(struct_108byte)resp = cls_struct_108byte_fn(b0, b1, b2, b3);
73	n/a	}
74	n/a
75	n/a	int main (void)
76	n/a	{
77	n/a	ffi_cif cif;
78	n/a	void *code;
79	n/a	ffi_closure *pcl = ffi_closure_alloc(sizeof(ffi_closure), &code);
80	n/a	void* args_dbl[5];
81	n/a	ffi_type* cls_struct_fields[15];
82	n/a	ffi_type cls_struct_type;
83	n/a	ffi_type* dbl_arg_types[5];
84	n/a
85	n/a	struct_108byte e_dbl = { 9.0, 2.0, 6.0, 5.0, 3.0, 4.0, 8.0, 1.0, 1.0, 2.0, 3.0, 7.0, 2.0, 7 };
86	n/a	struct_108byte f_dbl = { 1.0, 2.0, 3.0, 7.0, 2.0, 5.0, 6.0, 7.0, 4.0, 5.0, 7.0, 9.0, 1.0, 4 };
87	n/a	struct_108byte g_dbl = { 4.0, 5.0, 7.0, 9.0, 1.0, 1.0, 2.0, 9.0, 8.0, 6.0, 1.0, 4.0, 0.0, 3 };
88	n/a	struct_108byte h_dbl = { 8.0, 6.0, 1.0, 4.0, 0.0, 3.0, 3.0, 1.0, 9.0, 2.0, 6.0, 5.0, 3.0, 2 };
89	n/a	struct_108byte res_dbl;
90	n/a
91	n/a	cls_struct_type.size = 0;
92	n/a	cls_struct_type.alignment = 0;
93	n/a	cls_struct_type.type = FFI_TYPE_STRUCT;
94	n/a	cls_struct_type.elements = cls_struct_fields;
95	n/a
96	n/a	cls_struct_fields[0] = &ffi_type_double;
97	n/a	cls_struct_fields[1] = &ffi_type_double;
98	n/a	cls_struct_fields[2] = &ffi_type_double;
99	n/a	cls_struct_fields[3] = &ffi_type_double;
100	n/a	cls_struct_fields[4] = &ffi_type_double;
101	n/a	cls_struct_fields[5] = &ffi_type_double;
102	n/a	cls_struct_fields[6] = &ffi_type_double;
103	n/a	cls_struct_fields[7] = &ffi_type_double;
104	n/a	cls_struct_fields[8] = &ffi_type_double;
105	n/a	cls_struct_fields[9] = &ffi_type_double;
106	n/a	cls_struct_fields[10] = &ffi_type_double;
107	n/a	cls_struct_fields[11] = &ffi_type_double;
108	n/a	cls_struct_fields[12] = &ffi_type_double;
109	n/a	cls_struct_fields[13] = &ffi_type_sint32;
110	n/a	cls_struct_fields[14] = NULL;
111	n/a
112	n/a	dbl_arg_types[0] = &cls_struct_type;
113	n/a	dbl_arg_types[1] = &cls_struct_type;
114	n/a	dbl_arg_types[2] = &cls_struct_type;
115	n/a	dbl_arg_types[3] = &cls_struct_type;
116	n/a	dbl_arg_types[4] = NULL;
117	n/a
118	n/a	CHECK(ffi_prep_cif(&cif, FFI_DEFAULT_ABI, 4, &cls_struct_type,
119	n/a	dbl_arg_types) == FFI_OK);
120	n/a
121	n/a	args_dbl[0] = &e_dbl;
122	n/a	args_dbl[1] = &f_dbl;
123	n/a	args_dbl[2] = &g_dbl;
124	n/a	args_dbl[3] = &h_dbl;
125	n/a	args_dbl[4] = NULL;
126	n/a
127	n/a	ffi_call(&cif, FFI_FN(cls_struct_108byte_fn), &res_dbl, args_dbl);
128	n/a	/* { dg-output "22 15 17 25 6 13 19 18 22 15 17 25 6 16" } */
129	n/a	printf("res: %g %g %g %g %g %g %g %g %g %g %g %g %g %d\n", res_dbl.a, res_dbl.b,
130	n/a	res_dbl.c, res_dbl.d, res_dbl.e, res_dbl.f, res_dbl.g, res_dbl.h, res_dbl.i,
131	n/a	res_dbl.j, res_dbl.k, res_dbl.l, res_dbl.m, res_dbl.n);
132	n/a	/* { dg-output "\nres: 22 15 17 25 6 13 19 18 22 15 17 25 6 16" } */
133	n/a
134	n/a	CHECK(ffi_prep_closure_loc(pcl, &cif, cls_struct_108byte_gn, NULL, code) == FFI_OK);
135	n/a
136	n/a	res_dbl = ((struct_108byte(*)(struct_108byte, struct_108byte,
137	n/a	struct_108byte, struct_108byte))(code))(e_dbl, f_dbl, g_dbl, h_dbl);
138	n/a	/* { dg-output "\n22 15 17 25 6 13 19 18 22 15 17 25 6 16" } */
139	n/a	printf("res: %g %g %g %g %g %g %g %g %g %g %g %g %g %d\n", res_dbl.a, res_dbl.b,
140	n/a	res_dbl.c, res_dbl.d, res_dbl.e, res_dbl.f, res_dbl.g, res_dbl.h, res_dbl.i,
141	n/a	res_dbl.j, res_dbl.k, res_dbl.l, res_dbl.m, res_dbl.n);
142	n/a	/* { dg-output "\nres: 22 15 17 25 6 13 19 18 22 15 17 25 6 16" } */
143	n/a
144	n/a	exit(0);
145	n/a	}