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73_arm64.c@ 331

Last change on this file since 331 was 331, checked in by coas-nagasima, 6 years ago
prototoolに関連するプロジェクトをnewlibからmuslを使うよう変更・更新 ntshellをnewlibの下位の実装から、muslのsyscallの実装に変更・更新以下のOSSをアップデート・mruby-1.3.0 ・musl-1.1.18 ・onigmo-6.1.3 ・tcc-0.9.27 以下のOSSを追加・openssl-1.1.0e ・curl-7.57.0 ・zlib-1.2.11 以下のmrbgemsを追加・iij/mruby-digest ・iij/mruby-env ・iij/mruby-errno ・iij/mruby-iijson ・iij/mruby-ipaddr ・iij/mruby-mock ・iij/mruby-require ・iij/mruby-tls-openssl
Property svn:eol-style set to `native` Property svn:mime-type set to `text/x-csrc`
File size: 16.8 KB

Line
1	// This program is designed to test some arm64-specific things, such as the
2	// calling convention, but should give the same results on any architecture.
3
4	#include <stdarg.h>
5	#include <stdint.h>
6	#include <stdio.h>
7
8	struct s1 { char x[1]; } s1 = { "0" };
9	struct s2 { char x[2]; } s2 = { "12" };
10	struct s3 { char x[3]; } s3 = { "345" };
11	struct s4 { char x[4]; } s4 = { "6789" };
12	struct s5 { char x[5]; } s5 = { "abcde" };
13	struct s6 { char x[6]; } s6 = { "fghijk" };
14	struct s7 { char x[7]; } s7 = { "lmnopqr" };
15	struct s8 { char x[8]; } s8 = { "stuvwxyz" };
16	struct s9 { char x[9]; } s9 = { "ABCDEFGHI" };
17	struct s10 { char x[10]; } s10 = { "JKLMNOPQRS" };
18	struct s11 { char x[11]; } s11 = { "TUVWXYZ0123" };
19	struct s12 { char x[12]; } s12 = { "456789abcdef" };
20	struct s13 { char x[13]; } s13 = { "ghijklmnopqrs" };
21	struct s14 { char x[14]; } s14 = { "tuvwxyzABCDEFG" };
22	struct s15 { char x[15]; } s15 = { "HIJKLMNOPQRSTUV" };
23	struct s16 { char x[16]; } s16 = { "WXYZ0123456789ab" };
24	struct s17 { char x[17]; } s17 = { "cdefghijklmnopqrs" };
25
26	struct hfa11 { float a; } hfa11 = { 11.1 };
27	struct hfa12 { float a, b; } hfa12 = { 12.1, 12.2 };
28	struct hfa13 { float a, b, c; } hfa13 = { 13.1, 13.2, 13.3 };
29	struct hfa14 { float a, b, c, d; } hfa14 = { 14.1, 14.2, 14.3, 14.4 };
30
31	struct hfa21 { double a; } hfa21 = { 21.1 };
32	struct hfa22 { double a, b; } hfa22 = { 22.1, 22.2 };
33	struct hfa23 { double a, b, c; } hfa23 = { 23.1, 23.2, 23.3 };
34	struct hfa24 { double a, b, c, d; } hfa24 = { 24.1, 24.2, 24.3, 24.4 };
35
36	struct hfa31 { long double a; } hfa31 = { 31.1 };
37	struct hfa32 { long double a, b; } hfa32 = { 32.1, 32.2 };
38	struct hfa33 { long double a, b, c; } hfa33 = { 33.1, 33.2, 33.3 };
39	struct hfa34 { long double a, b, c, d; } hfa34 = { 34.1, 34.2, 34.3, 34.4 };
40
41	void fa_s1(struct s1 a) { printf("%.1s\n", a.x); }
42	void fa_s2(struct s2 a) { printf("%.2s\n", a.x); }
43	void fa_s3(struct s3 a) { printf("%.3s\n", a.x); }
44	void fa_s4(struct s4 a) { printf("%.4s\n", a.x); }
45	void fa_s5(struct s5 a) { printf("%.5s\n", a.x); }
46	void fa_s6(struct s6 a) { printf("%.6s\n", a.x); }
47	void fa_s7(struct s7 a) { printf("%.7s\n", a.x); }
48	void fa_s8(struct s8 a) { printf("%.8s\n", a.x); }
49	void fa_s9(struct s9 a) { printf("%.9s\n", a.x); }
50	void fa_s10(struct s10 a) { printf("%.10s\n", a.x); }
51	void fa_s11(struct s11 a) { printf("%.11s\n", a.x); }
52	void fa_s12(struct s12 a) { printf("%.12s\n", a.x); }
53	void fa_s13(struct s13 a) { printf("%.13s\n", a.x); }
54	void fa_s14(struct s14 a) { printf("%.14s\n", a.x); }
55	void fa_s15(struct s15 a) { printf("%.15s\n", a.x); }
56	void fa_s16(struct s16 a) { printf("%.16s\n", a.x); }
57	void fa_s17(struct s17 a) { printf("%.17s\n", a.x); }
58
59	void fa_hfa11(struct hfa11 a)
60	{ printf("%.1f\n", a.a); }
61	void fa_hfa12(struct hfa12 a)
62	{ printf("%.1f %.1f\n", a.a, a.a); }
63	void fa_hfa13(struct hfa13 a)
64	{ printf("%.1f %.1f %.1f\n", a.a, a.b, a.c); }
65	void fa_hfa14(struct hfa14 a)
66	{ printf("%.1f %.1f %.1f %.1f\n", a.a, a.b, a.c, a.d); }
67
68	void fa_hfa21(struct hfa21 a)
69	{ printf("%.1f\n", a.a); }
70	void fa_hfa22(struct hfa22 a)
71	{ printf("%.1f %.1f\n", a.a, a.a); }
72	void fa_hfa23(struct hfa23 a)
73	{ printf("%.1f %.1f %.1f\n", a.a, a.b, a.c); }
74	void fa_hfa24(struct hfa24 a)
75	{ printf("%.1f %.1f %.1f %.1f\n", a.a, a.b, a.c, a.d); }
76
77	void fa_hfa31(struct hfa31 a)
78	{ printf("%.1Lf\n", a.a); }
79	void fa_hfa32(struct hfa32 a)
80	{ printf("%.1Lf %.1Lf\n", a.a, a.a); }
81	void fa_hfa33(struct hfa33 a)
82	{ printf("%.1Lf %.1Lf %.1Lf\n", a.a, a.b, a.c); }
83	void fa_hfa34(struct hfa34 a)
84	{ printf("%.1Lf %.1Lf %.1Lf %.1Lf\n", a.a, a.b, a.c, a.d); }
85
86	void fa1(struct s8 a, struct s9 b, struct s10 c, struct s11 d,
87	struct s12 e, struct s13 f)
88	{
89	printf("%.3s %.3s %.3s %.3s %.3s %.3s\n", a.x, b.x, c.x, d.x, e.x, f.x);
90	}
91
92	void fa2(struct s9 a, struct s10 b, struct s11 c, struct s12 d,
93	struct s13 e, struct s14 f)
94	{
95	printf("%.3s %.3s %.3s %.3s %.3s %.3s\n", a.x, b.x, c.x, d.x, e.x, f.x);
96	}
97
98	void fa3(struct hfa14 a, struct hfa23 b, struct hfa32 c)
99	{
100	printf("%.1f %.1f %.1f %.1f %.1Lf %.1Lf\n",
101	a.a, a.d, b.a, b.c, c.a, c.b);
102	}
103
104	void fa4(struct s1 a, struct hfa14 b, struct s2 c, struct hfa24 d,
105	struct s3 e, struct hfa34 f)
106	{
107	printf("%.1s %.1f %.1f %.2s %.1f %.1f %.3s %.1Lf %.1Lf\n",
108	a.x, b.a, b.d, c.x, d.a, d.d, e.x, f.a, f.d);
109	}
110
111	void arg(void)
112	{
113	printf("Arguments:\n");
114	fa_s1(s1);
115	fa_s2(s2);
116	fa_s3(s3);
117	fa_s4(s4);
118	fa_s5(s5);
119	fa_s6(s6);
120	fa_s7(s7);
121	fa_s8(s8);
122	fa_s9(s9);
123	fa_s10(s10);
124	fa_s11(s11);
125	fa_s12(s12);
126	fa_s13(s13);
127	fa_s14(s14);
128	fa_s15(s15);
129	fa_s16(s16);
130	fa_s17(s17);
131	fa_hfa11(hfa11);
132	fa_hfa12(hfa12);
133	fa_hfa13(hfa13);
134	fa_hfa14(hfa14);
135	fa_hfa21(hfa21);
136	fa_hfa22(hfa22);
137	fa_hfa23(hfa23);
138	fa_hfa24(hfa24);
139	fa_hfa31(hfa31);
140	fa_hfa32(hfa32);
141	fa_hfa33(hfa33);
142	fa_hfa34(hfa34);
143	fa1(s8, s9, s10, s11, s12, s13);
144	fa2(s9, s10, s11, s12, s13, s14);
145	fa3(hfa14, hfa23, hfa32);
146	fa4(s1, hfa14, s2, hfa24, s3, hfa34);
147	}
148
149	struct s1 fr_s1(void) { return s1; }
150	struct s2 fr_s2(void) { return s2; }
151	struct s3 fr_s3(void) { return s3; }
152	struct s4 fr_s4(void) { return s4; }
153	struct s5 fr_s5(void) { return s5; }
154	struct s6 fr_s6(void) { return s6; }
155	struct s7 fr_s7(void) { return s7; }
156	struct s8 fr_s8(void) { return s8; }
157	struct s9 fr_s9(void) { return s9; }
158	struct s10 fr_s10(void) { return s10; }
159	struct s11 fr_s11(void) { return s11; }
160	struct s12 fr_s12(void) { return s12; }
161	struct s13 fr_s13(void) { return s13; }
162	struct s14 fr_s14(void) { return s14; }
163	struct s15 fr_s15(void) { return s15; }
164	struct s16 fr_s16(void) { return s16; }
165	struct s17 fr_s17(void) { return s17; }
166
167	struct hfa11 fr_hfa11(void) { return hfa11; }
168	struct hfa12 fr_hfa12(void) { return hfa12; }
169	struct hfa13 fr_hfa13(void) { return hfa13; }
170	struct hfa14 fr_hfa14(void) { return hfa14; }
171
172	struct hfa21 fr_hfa21(void) { return hfa21; }
173	struct hfa22 fr_hfa22(void) { return hfa22; }
174	struct hfa23 fr_hfa23(void) { return hfa23; }
175	struct hfa24 fr_hfa24(void) { return hfa24; }
176
177	struct hfa31 fr_hfa31(void) { return hfa31; }
178	struct hfa32 fr_hfa32(void) { return hfa32; }
179	struct hfa33 fr_hfa33(void) { return hfa33; }
180	struct hfa34 fr_hfa34(void) { return hfa34; }
181
182	void ret(void)
183	{
184	struct s1 t1 = fr_s1();
185	struct s2 t2 = fr_s2();
186	struct s3 t3 = fr_s3();
187	struct s4 t4 = fr_s4();
188	struct s5 t5 = fr_s5();
189	struct s6 t6 = fr_s6();
190	struct s7 t7 = fr_s7();
191	struct s8 t8 = fr_s8();
192	struct s9 t9 = fr_s9();
193	struct s10 t10 = fr_s10();
194	struct s11 t11 = fr_s11();
195	struct s12 t12 = fr_s12();
196	struct s13 t13 = fr_s13();
197	struct s14 t14 = fr_s14();
198	struct s15 t15 = fr_s15();
199	struct s16 t16 = fr_s16();
200	struct s17 t17 = fr_s17();
201	printf("Return values:\n");
202	printf("%.1s\n", t1.x);
203	printf("%.2s\n", t2.x);
204	printf("%.3s\n", t3.x);
205	printf("%.4s\n", t4.x);
206	printf("%.5s\n", t5.x);
207	printf("%.6s\n", t6.x);
208	printf("%.7s\n", t7.x);
209	printf("%.8s\n", t8.x);
210	printf("%.9s\n", t9.x);
211	printf("%.10s\n", t10.x);
212	printf("%.11s\n", t11.x);
213	printf("%.12s\n", t12.x);
214	printf("%.13s\n", t13.x);
215	printf("%.14s\n", t14.x);
216	printf("%.15s\n", t15.x);
217	printf("%.16s\n", t16.x);
218	printf("%.17s\n", t17.x);
219	printf("%.1f\n", fr_hfa11().a);
220	printf("%.1f %.1f\n", fr_hfa12().a, fr_hfa12().b);
221	printf("%.1f %.1f\n", fr_hfa13().a, fr_hfa13().c);
222	printf("%.1f %.1f\n", fr_hfa14().a, fr_hfa14().d);
223	printf("%.1f\n", fr_hfa21().a);
224	printf("%.1f %.1f\n", fr_hfa22().a, fr_hfa22().b);
225	printf("%.1f %.1f\n", fr_hfa23().a, fr_hfa23().c);
226	printf("%.1f %.1f\n", fr_hfa24().a, fr_hfa24().d);
227	printf("%.1Lf\n", fr_hfa31().a);
228	printf("%.1Lf %.1Lf\n", fr_hfa32().a, fr_hfa32().b);
229	printf("%.1Lf %.1Lf\n", fr_hfa33().a, fr_hfa33().c);
230	printf("%.1Lf %.1Lf\n", fr_hfa34().a, fr_hfa34().d);
231	}
232
233	int match(const char *s, const char f)
234	{
235	const char p = s;
236	for (p = s; f && f == p; f++, p++)
237	;
238	if (!*f) {
239	*s = p - 1;
240	return 1;
241	}
242	return 0;
243	}
244
245	void myprintf(const char *format, ...)
246	{
247	const char *s;
248	va_list ap;
249	va_start(ap, format);
250	for (s = format; *s; s++) {
251	if (match(&s, "%7s")) {
252	struct s7 t7 = va_arg(ap, struct s7);
253	printf("%.7s", t7.x);
254	}
255	else if (match(&s, "%9s")) {
256	struct s9 t9 = va_arg(ap, struct s9);
257	printf("%.9s", t9.x);
258	}
259	else if (match(&s, "%hfa11")) {
260	struct hfa11 x = va_arg(ap, struct hfa11);
261	printf("%.1f,%.1f", x.a, x.a);
262	}
263	else if (match(&s, "%hfa12")) {
264	struct hfa12 x = va_arg(ap, struct hfa12);
265	printf("%.1f,%.1f", x.a, x.b);
266	}
267	else if (match(&s, "%hfa13")) {
268	struct hfa13 x = va_arg(ap, struct hfa13);
269	printf("%.1f,%.1f", x.a, x.c);
270	}
271	else if (match(&s, "%hfa14")) {
272	struct hfa14 x = va_arg(ap, struct hfa14);
273	printf("%.1f,%.1f", x.a, x.d);
274	}
275	else if (match(&s, "%hfa21")) {
276	struct hfa21 x = va_arg(ap, struct hfa21);
277	printf("%.1f,%.1f", x.a, x.a);
278	}
279	else if (match(&s, "%hfa22")) {
280	struct hfa22 x = va_arg(ap, struct hfa22);
281	printf("%.1f,%.1f", x.a, x.b);
282	}
283	else if (match(&s, "%hfa23")) {
284	struct hfa23 x = va_arg(ap, struct hfa23);
285	printf("%.1f,%.1f", x.a, x.c);
286	}
287	else if (match(&s, "%hfa24")) {
288	struct hfa24 x = va_arg(ap, struct hfa24);
289	printf("%.1f,%.1f", x.a, x.d);
290	}
291	else if (match(&s, "%hfa31")) {
292	struct hfa31 x = va_arg(ap, struct hfa31);
293	printf("%.1Lf,%.1Lf", x.a, x.a);
294	}
295	else if (match(&s, "%hfa32")) {
296	struct hfa32 x = va_arg(ap, struct hfa32);
297	printf("%.1Lf,%.1Lf", x.a, x.b);
298	}
299	else if (match(&s, "%hfa33")) {
300	struct hfa33 x = va_arg(ap, struct hfa33);
301	printf("%.1Lf,%.1Lf", x.a, x.c);
302	}
303	else if (match(&s, "%hfa34")) {
304	struct hfa34 x = va_arg(ap, struct hfa34);
305	printf("%.1Lf,%.1Lf", x.a, x.d);
306	}
307	else
308	putchar(*s);
309	}
310	putchar('\n');
311	}
312
313	void stdarg(void)
314	{
315	printf("stdarg:\n");
316	myprintf("%9s %9s %9s %9s %9s %9s", s9, s9, s9, s9, s9, s9);
317	myprintf("%7s %9s %9s %9s %9s %9s", s7, s9, s9, s9, s9, s9);
318
319	myprintf("HFA long double:");
320	myprintf("%hfa34 %hfa34 %hfa34 %hfa34", hfa34, hfa34, hfa34, hfa34);
321	myprintf("%hfa33 %hfa34 %hfa34 %hfa34", hfa33, hfa34, hfa34, hfa34);
322	myprintf("%hfa32 %hfa34 %hfa34 %hfa34", hfa32, hfa34, hfa34, hfa34);
323	myprintf("%hfa31 %hfa34 %hfa34 %hfa34", hfa31, hfa34, hfa34, hfa34);
324
325	myprintf("%hfa32 %hfa33 %hfa33 %hfa33 %hfa33",
326	hfa32, hfa33, hfa33, hfa33, hfa33);
327	myprintf("%hfa31 %hfa33 %hfa33 %hfa33 %hfa33",
328	hfa31, hfa33, hfa33, hfa33, hfa33);
329	myprintf("%hfa33 %hfa33 %hfa33 %hfa33",
330	hfa33, hfa33, hfa33, hfa33);
331
332	myprintf("%hfa34 %hfa32 %hfa32 %hfa32 %hfa32",
333	hfa34, hfa32, hfa32, hfa32, hfa32);
334	myprintf("%hfa33 %hfa32 %hfa32 %hfa32 %hfa32",
335	hfa33, hfa32, hfa32, hfa32, hfa32);
336
337	myprintf("%hfa34 %hfa32 %hfa31 %hfa31 %hfa31 %hfa31",
338	hfa34, hfa32, hfa31, hfa31, hfa31, hfa31);
339
340	myprintf("HFA double:");
341	myprintf("%hfa24 %hfa24 %hfa24 %hfa24", hfa24, hfa24, hfa24, hfa24);
342	myprintf("%hfa23 %hfa24 %hfa24 %hfa24", hfa23, hfa24, hfa24, hfa24);
343	myprintf("%hfa22 %hfa24 %hfa24 %hfa24", hfa22, hfa24, hfa24, hfa24);
344	myprintf("%hfa21 %hfa24 %hfa24 %hfa24", hfa21, hfa24, hfa24, hfa24);
345
346	myprintf("%hfa22 %hfa23 %hfa23 %hfa23 %hfa23",
347	hfa22, hfa23, hfa23, hfa23, hfa23);
348	myprintf("%hfa21 %hfa23 %hfa23 %hfa23 %hfa23",
349	hfa21, hfa23, hfa23, hfa23, hfa23);
350	myprintf("%hfa23 %hfa23 %hfa23 %hfa23",
351	hfa23, hfa23, hfa23, hfa23);
352
353	myprintf("%hfa24 %hfa22 %hfa22 %hfa22 %hfa22",
354	hfa24, hfa22, hfa22, hfa22, hfa22);
355	myprintf("%hfa23 %hfa22 %hfa22 %hfa22 %hfa22",
356	hfa23, hfa22, hfa22, hfa22, hfa22);
357
358	myprintf("%hfa24 %hfa22 %hfa21 %hfa21 %hfa21 %hfa21",
359	hfa24, hfa22, hfa21, hfa21, hfa21, hfa21);
360
361	myprintf("HFA float:");
362	myprintf("%hfa14 %hfa14 %hfa14 %hfa14", hfa14, hfa14, hfa14, hfa14);
363	myprintf("%hfa13 %hfa14 %hfa14 %hfa14", hfa13, hfa14, hfa14, hfa14);
364	myprintf("%hfa12 %hfa14 %hfa14 %hfa14", hfa12, hfa14, hfa14, hfa14);
365	myprintf("%hfa11 %hfa14 %hfa14 %hfa14", hfa11, hfa14, hfa14, hfa14);
366
367	myprintf("%hfa12 %hfa13 %hfa13 %hfa13 %hfa13",
368	hfa12, hfa13, hfa13, hfa13, hfa13);
369	myprintf("%hfa11 %hfa13 %hfa13 %hfa13 %hfa13",
370	hfa11, hfa13, hfa13, hfa13, hfa13);
371	myprintf("%hfa13 %hfa13 %hfa13 %hfa13",
372	hfa13, hfa13, hfa13, hfa13);
373
374	myprintf("%hfa14 %hfa12 %hfa12 %hfa12 %hfa12",
375	hfa14, hfa12, hfa12, hfa12, hfa12);
376	myprintf("%hfa13 %hfa12 %hfa12 %hfa12 %hfa12",
377	hfa13, hfa12, hfa12, hfa12, hfa12);
378
379	myprintf("%hfa14 %hfa12 %hfa11 %hfa11 %hfa11 %hfa11",
380	hfa14, hfa12, hfa11, hfa11, hfa11, hfa11);
381	}
382
383	void pll(unsigned long long x)
384	{
385	printf("%llx\n", x);
386	}
387
388	void movi(void)
389	{
390	printf("MOVI:\n");
391	pll(0);
392	pll(0xabcd);
393	pll(0xabcd0000);
394	pll(0xabcd00000000);
395	pll(0xabcd000000000000);
396	pll(0xffffabcd);
397	pll(0xabcdffff);
398	pll(0xffffffffffffabcd);
399	pll(0xffffffffabcdffff);
400	pll(0xffffabcdffffffff);
401	pll(0xabcdffffffffffff);
402	pll(0xaaaaaaaa);
403	pll(0x5555555555555555);
404	pll(0x77777777);
405	pll(0x3333333333333333);
406	pll(0xf8f8f8f8);
407	pll(0x1e1e1e1e1e1e1e1e);
408	pll(0x3f803f80);
409	pll(0x01ff01ff01ff01ff);
410	pll(0x007fffc0);
411	pll(0x03fff80003fff800);
412	pll(0x0007fffffffffe00);
413
414	pll(0xabcd1234);
415	pll(0xabcd00001234);
416	pll(0xabcd000000001234);
417	pll(0xabcd12340000);
418	pll(0xabcd000012340000);
419	pll(0xabcd123400000000);
420	pll(0xffffffffabcd1234);
421	pll(0xffffabcdffff1234);
422	pll(0xabcdffffffff1234);
423	pll(0xffffabcd1234ffff);
424	pll(0xabcdffff1234ffff);
425	pll(0xabcd1234ffffffff);
426
427	pll(0xffffef0123456789);
428	pll(0xabcdef012345ffff);
429
430	pll(0xabcdef0123456789);
431	}
432
433	static uint32_t addip0(uint32_t x) { return x + 0; }
434	static uint64_t sublp0(uint64_t x) { return x - 0; }
435	static uint32_t addip123(uint32_t x) { return x + 123; }
436	static uint64_t addlm123(uint64_t x) { return x + -123; }
437	static uint64_t sublp4095(uint64_t x) { return x - 4095; }
438	static uint32_t subim503808(uint32_t x) { return x - -503808; }
439	static uint64_t addp12345(uint64_t x) { return x + 12345; }
440	static uint32_t subp12345(uint32_t x) { return x - 12345; }
441
442	static uint32_t mvni(uint32_t x) { return 0xffffffff - x; }
443	static uint64_t negl(uint64_t x) { return 0 - x; }
444	static uint32_t rsbi123(uint32_t x) { return 123 - x; }
445	static uint64_t rsbl123(uint64_t x) { return 123 - x; }
446
447	static uint32_t andi0(uint32_t x) { return x & 0; }
448	static uint64_t andlm1(uint64_t x) { return x & -1; }
449	static uint64_t orrl0(uint64_t x) { return x \| 0; }
450	static uint32_t orrim1(uint32_t x) { return x \| -1; }
451	static uint32_t eori0(uint32_t x) { return x ^ 0; }
452	static uint64_t eorlm1(uint64_t x) { return x ^ -1; }
453	static uint32_t and0xf0(uint32_t x) { return x & 0xf0; }
454	static uint64_t orr0xf0(uint64_t x) { return x \| 0xf0; }
455	static uint64_t eor0xf0(uint64_t x) { return x ^ 0xf0; }
456
457	static uint32_t lsli0(uint32_t x) { return x << 0; }
458	static uint32_t lsri0(uint32_t x) { return x >> 0; }
459	static int64_t asrl0(int64_t x) { return x >> 0; }
460	static uint32_t lsli1(uint32_t x) { return x << 1; }
461	static uint32_t lsli31(uint32_t x) { return x << 31; }
462	static uint64_t lsll1(uint64_t x) { return x << 1; }
463	static uint64_t lsll63(uint64_t x) { return x << 63; }
464	static uint32_t lsri1(uint32_t x) { return x >> 1; }
465	static uint32_t lsri31(uint32_t x) { return x >> 31; }
466	static uint64_t lsrl1(uint64_t x) { return x >> 1; }
467	static uint64_t lsrl63(uint64_t x) { return x >> 63; }
468	static int32_t asri1(int32_t x) { return x >> 1; }
469	static int32_t asri31(int32_t x) { return x >> 31; }
470	static int64_t asrl1(int64_t x) { return x >> 1; }
471	static int64_t asrl63(int64_t x) { return x >> 63; }
472
473	void opi(void)
474	{
475	int x = 1000;
476	pll(addip0(x));
477	pll(sublp0(x));
478	pll(addip123(x));
479	pll(addlm123(x));
480	pll(sublp4095(x));
481	pll(subim503808(x));
482	pll(addp12345(x));
483	pll(subp12345(x));
484	pll(mvni(x));
485	pll(negl(x));
486	pll(rsbi123(x));
487	pll(rsbl123(x));
488	pll(andi0(x));
489	pll(andlm1(x));
490	pll(orrl0(x));
491	pll(orrim1(x));
492	pll(eori0(x));
493	pll(eorlm1(x));
494	pll(and0xf0(x));
495	pll(orr0xf0(x));
496	pll(eor0xf0(x));
497	pll(lsli0(x));
498	pll(lsri0(x));
499	pll(asrl0(x));
500	pll(lsli1(x));
501	pll(lsli31(x));
502	pll(lsll1(x));
503	pll(lsll63(x));
504	pll(lsri1(x));
505	pll(lsri31(x));
506	pll(lsrl1(x));
507	pll(lsrl63(x));
508	pll(asri1(x));
509	pll(asri31(x));
510	pll(asrl1(x));
511	pll(asrl63(x));
512	}
513
514	void pcs(void)
515	{
516	arg();
517	ret();
518	stdarg();
519	movi();
520	opi();
521	}
522
523	int main()
524	{
525	pcs();
526	return 0;
527	}

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source: EcnlProtoTool/trunk/tcc-0.9.27/tests/tests2/73_arm64.c@ 331

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