1 /* { dg-final { check-function-bodies "**" "" "-DCHECK_ASM" } } */
2
3 #include "test_sve_acle.h"
4
5 /*
6 ** eor_s32_m_tied1:
7 ** eor z0\.s, p0/m, z0\.s, z1\.s
8 ** ret
9 */
10 TEST_UNIFORM_Z (eor_s32_m_tied1, svint32_t,
11 z0 = sveor_s32_m (p0, z0, z1),
12 z0 = sveor_m (p0, z0, z1))
13
14 /*
15 ** eor_s32_m_tied2:
16 ** mov (z[0-9]+)\.d, z0\.d
17 ** movprfx z0, z1
18 ** eor z0\.s, p0/m, z0\.s, \1\.s
19 ** ret
20 */
21 TEST_UNIFORM_Z (eor_s32_m_tied2, svint32_t,
22 z0 = sveor_s32_m (p0, z1, z0),
23 z0 = sveor_m (p0, z1, z0))
24
25 /*
26 ** eor_s32_m_untied:
27 ** movprfx z0, z1
28 ** eor z0\.s, p0/m, z0\.s, z2\.s
29 ** ret
30 */
31 TEST_UNIFORM_Z (eor_s32_m_untied, svint32_t,
32 z0 = sveor_s32_m (p0, z1, z2),
33 z0 = sveor_m (p0, z1, z2))
34
35 /*
36 ** eor_w0_s32_m_tied1:
37 ** mov (z[0-9]+\.s), w0
38 ** eor z0\.s, p0/m, z0\.s, \1
39 ** ret
40 */
41 TEST_UNIFORM_ZX (eor_w0_s32_m_tied1, svint32_t, int32_t,
42 z0 = sveor_n_s32_m (p0, z0, x0),
43 z0 = sveor_m (p0, z0, x0))
44
45 /*
46 ** eor_w0_s32_m_untied:
47 ** mov (z[0-9]+\.s), w0
48 ** movprfx z0, z1
49 ** eor z0\.s, p0/m, z0\.s, \1
50 ** ret
51 */
52 TEST_UNIFORM_ZX (eor_w0_s32_m_untied, svint32_t, int32_t,
53 z0 = sveor_n_s32_m (p0, z1, x0),
54 z0 = sveor_m (p0, z1, x0))
55
56 /*
57 ** eor_1_s32_m_tied1:
58 ** mov (z[0-9]+\.s), #1
59 ** eor z0\.s, p0/m, z0\.s, \1
60 ** ret
61 */
62 TEST_UNIFORM_Z (eor_1_s32_m_tied1, svint32_t,
63 z0 = sveor_n_s32_m (p0, z0, 1),
64 z0 = sveor_m (p0, z0, 1))
65
66 /*
67 ** eor_1_s32_m_untied: { xfail *-*-* }
68 ** mov (z[0-9]+\.s), #1
69 ** movprfx z0, z1
70 ** eor z0\.s, p0/m, z0\.s, \1
71 ** ret
72 */
73 TEST_UNIFORM_Z (eor_1_s32_m_untied, svint32_t,
74 z0 = sveor_n_s32_m (p0, z1, 1),
75 z0 = sveor_m (p0, z1, 1))
76
77 /*
78 ** eor_m2_s32_m:
79 ** mov (z[0-9]+\.s), #-2
80 ** eor z0\.s, p0/m, z0\.s, \1
81 ** ret
82 */
83 TEST_UNIFORM_Z (eor_m2_s32_m, svint32_t,
84 z0 = sveor_n_s32_m (p0, z0, -2),
85 z0 = sveor_m (p0, z0, -2))
86
87 /*
88 ** eor_s32_z_tied1:
89 ** movprfx z0\.s, p0/z, z0\.s
90 ** eor z0\.s, p0/m, z0\.s, z1\.s
91 ** ret
92 */
93 TEST_UNIFORM_Z (eor_s32_z_tied1, svint32_t,
94 z0 = sveor_s32_z (p0, z0, z1),
95 z0 = sveor_z (p0, z0, z1))
96
97 /*
98 ** eor_s32_z_tied2:
99 ** movprfx z0\.s, p0/z, z0\.s
100 ** eor z0\.s, p0/m, z0\.s, z1\.s
101 ** ret
102 */
103 TEST_UNIFORM_Z (eor_s32_z_tied2, svint32_t,
104 z0 = sveor_s32_z (p0, z1, z0),
105 z0 = sveor_z (p0, z1, z0))
106
107 /*
108 ** eor_s32_z_untied:
109 ** (
110 ** movprfx z0\.s, p0/z, z1\.s
111 ** eor z0\.s, p0/m, z0\.s, z2\.s
112 ** |
113 ** movprfx z0\.s, p0/z, z2\.s
114 ** eor z0\.s, p0/m, z0\.s, z1\.s
115 ** )
116 ** ret
117 */
118 TEST_UNIFORM_Z (eor_s32_z_untied, svint32_t,
119 z0 = sveor_s32_z (p0, z1, z2),
120 z0 = sveor_z (p0, z1, z2))
121
122 /*
123 ** eor_w0_s32_z_tied1:
124 ** mov (z[0-9]+\.s), w0
125 ** movprfx z0\.s, p0/z, z0\.s
126 ** eor z0\.s, p0/m, z0\.s, \1
127 ** ret
128 */
129 TEST_UNIFORM_ZX (eor_w0_s32_z_tied1, svint32_t, int32_t,
130 z0 = sveor_n_s32_z (p0, z0, x0),
131 z0 = sveor_z (p0, z0, x0))
132
133 /*
134 ** eor_w0_s32_z_untied:
135 ** mov (z[0-9]+\.s), w0
136 ** (
137 ** movprfx z0\.s, p0/z, z1\.s
138 ** eor z0\.s, p0/m, z0\.s, \1
139 ** |
140 ** movprfx z0\.s, p0/z, \1
141 ** eor z0\.s, p0/m, z0\.s, z1\.s
142 ** )
143 ** ret
144 */
145 TEST_UNIFORM_ZX (eor_w0_s32_z_untied, svint32_t, int32_t,
146 z0 = sveor_n_s32_z (p0, z1, x0),
147 z0 = sveor_z (p0, z1, x0))
148
149 /*
150 ** eor_1_s32_z_tied1:
151 ** mov (z[0-9]+\.s), #1
152 ** movprfx z0\.s, p0/z, z0\.s
153 ** eor z0\.s, p0/m, z0\.s, \1
154 ** ret
155 */
156 TEST_UNIFORM_Z (eor_1_s32_z_tied1, svint32_t,
157 z0 = sveor_n_s32_z (p0, z0, 1),
158 z0 = sveor_z (p0, z0, 1))
159
160 /*
161 ** eor_1_s32_z_untied:
162 ** mov (z[0-9]+\.s), #1
163 ** (
164 ** movprfx z0\.s, p0/z, z1\.s
165 ** eor z0\.s, p0/m, z0\.s, \1
166 ** |
167 ** movprfx z0\.s, p0/z, \1
168 ** eor z0\.s, p0/m, z0\.s, z1\.s
169 ** )
170 ** ret
171 */
172 TEST_UNIFORM_Z (eor_1_s32_z_untied, svint32_t,
173 z0 = sveor_n_s32_z (p0, z1, 1),
174 z0 = sveor_z (p0, z1, 1))
175
176 /*
177 ** eor_s32_x_tied1:
178 ** eor z0\.d, (z0\.d, z1\.d|z1\.d, z0\.d)
179 ** ret
180 */
181 TEST_UNIFORM_Z (eor_s32_x_tied1, svint32_t,
182 z0 = sveor_s32_x (p0, z0, z1),
183 z0 = sveor_x (p0, z0, z1))
184
185 /*
186 ** eor_s32_x_tied2:
187 ** eor z0\.d, (z0\.d, z1\.d|z1\.d, z0\.d)
188 ** ret
189 */
190 TEST_UNIFORM_Z (eor_s32_x_tied2, svint32_t,
191 z0 = sveor_s32_x (p0, z1, z0),
192 z0 = sveor_x (p0, z1, z0))
193
194 /*
195 ** eor_s32_x_untied:
196 ** eor z0\.d, (z1\.d, z2\.d|z2\.d, z1\.d)
197 ** ret
198 */
199 TEST_UNIFORM_Z (eor_s32_x_untied, svint32_t,
200 z0 = sveor_s32_x (p0, z1, z2),
201 z0 = sveor_x (p0, z1, z2))
202
203 /*
204 ** eor_w0_s32_x_tied1:
205 ** mov (z[0-9]+)\.s, w0
206 ** eor z0\.d, (z0\.d, \1\.d|\1\.d, z0\.d)
207 ** ret
208 */
209 TEST_UNIFORM_ZX (eor_w0_s32_x_tied1, svint32_t, int32_t,
210 z0 = sveor_n_s32_x (p0, z0, x0),
211 z0 = sveor_x (p0, z0, x0))
212
213 /*
214 ** eor_w0_s32_x_untied:
215 ** mov (z[0-9]+)\.s, w0
216 ** eor z0\.d, (z1\.d, \1\.d|\1\.d, z1\.d)
217 ** ret
218 */
219 TEST_UNIFORM_ZX (eor_w0_s32_x_untied, svint32_t, int32_t,
220 z0 = sveor_n_s32_x (p0, z1, x0),
221 z0 = sveor_x (p0, z1, x0))
222
223 /*
224 ** eor_1_s32_x_tied1:
225 ** eor z0\.s, z0\.s, #0x1
226 ** ret
227 */
228 TEST_UNIFORM_Z (eor_1_s32_x_tied1, svint32_t,
229 z0 = sveor_n_s32_x (p0, z0, 1),
230 z0 = sveor_x (p0, z0, 1))
231
232 /*
233 ** eor_1_s32_x_untied:
234 ** movprfx z0, z1
235 ** eor z0\.s, z0\.s, #0x1
236 ** ret
237 */
238 TEST_UNIFORM_Z (eor_1_s32_x_untied, svint32_t,
239 z0 = sveor_n_s32_x (p0, z1, 1),
240 z0 = sveor_x (p0, z1, 1))
241
242 /*
243 ** eor_127_s32_x:
244 ** eor z0\.s, z0\.s, #0x7f
245 ** ret
246 */
247 TEST_UNIFORM_Z (eor_127_s32_x, svint32_t,
248 z0 = sveor_n_s32_x (p0, z0, 127),
249 z0 = sveor_x (p0, z0, 127))
250
251 /*
252 ** eor_128_s32_x:
253 ** eor z0\.s, z0\.s, #0x80
254 ** ret
255 */
256 TEST_UNIFORM_Z (eor_128_s32_x, svint32_t,
257 z0 = sveor_n_s32_x (p0, z0, 128),
258 z0 = sveor_x (p0, z0, 128))
259
260 /*
261 ** eor_255_s32_x:
262 ** eor z0\.s, z0\.s, #0xff
263 ** ret
264 */
265 TEST_UNIFORM_Z (eor_255_s32_x, svint32_t,
266 z0 = sveor_n_s32_x (p0, z0, 255),
267 z0 = sveor_x (p0, z0, 255))
268
269 /*
270 ** eor_256_s32_x:
271 ** eor z0\.s, z0\.s, #0x100
272 ** ret
273 */
274 TEST_UNIFORM_Z (eor_256_s32_x, svint32_t,
275 z0 = sveor_n_s32_x (p0, z0, 256),
276 z0 = sveor_x (p0, z0, 256))
277
278 /* TODO: Bad code and needs fixing. */
279 TEST_UNIFORM_Z (eor_257_s32_x, svint32_t,
280 z0 = sveor_n_s32_x (p0, z0, 257),
281 z0 = sveor_x (p0, z0, 257))
282
283 /*
284 ** eor_512_s32_x:
285 ** eor z0\.s, z0\.s, #0x200
286 ** ret
287 */
288 TEST_UNIFORM_Z (eor_512_s32_x, svint32_t,
289 z0 = sveor_n_s32_x (p0, z0, 512),
290 z0 = sveor_x (p0, z0, 512))
291
292 /*
293 ** eor_65280_s32_x:
294 ** eor z0\.s, z0\.s, #0xff00
295 ** ret
296 */
297 TEST_UNIFORM_Z (eor_65280_s32_x, svint32_t,
298 z0 = sveor_n_s32_x (p0, z0, 0xff00),
299 z0 = sveor_x (p0, z0, 0xff00))
300
301 /*
302 ** eor_m127_s32_x:
303 ** eor z0\.s, z0\.s, #0xffffff81
304 ** ret
305 */
306 TEST_UNIFORM_Z (eor_m127_s32_x, svint32_t,
307 z0 = sveor_n_s32_x (p0, z0, -127),
308 z0 = sveor_x (p0, z0, -127))
309
310 /*
311 ** eor_m128_s32_x:
312 ** eor z0\.s, z0\.s, #0xffffff80
313 ** ret
314 */
315 TEST_UNIFORM_Z (eor_m128_s32_x, svint32_t,
316 z0 = sveor_n_s32_x (p0, z0, -128),
317 z0 = sveor_x (p0, z0, -128))
318
319 /*
320 ** eor_m255_s32_x:
321 ** eor z0\.s, z0\.s, #0xffffff01
322 ** ret
323 */
324 TEST_UNIFORM_Z (eor_m255_s32_x, svint32_t,
325 z0 = sveor_n_s32_x (p0, z0, -255),
326 z0 = sveor_x (p0, z0, -255))
327
328 /*
329 ** eor_m256_s32_x:
330 ** eor z0\.s, z0\.s, #0xffffff00
331 ** ret
332 */
333 TEST_UNIFORM_Z (eor_m256_s32_x, svint32_t,
334 z0 = sveor_n_s32_x (p0, z0, -256),
335 z0 = sveor_x (p0, z0, -256))
336
337 /*
338 ** eor_m257_s32_x:
339 ** eor z0\.s, z0\.s, #0xfffffeff
340 ** ret
341 */
342 TEST_UNIFORM_Z (eor_m257_s32_x, svint32_t,
343 z0 = sveor_n_s32_x (p0, z0, -257),
344 z0 = sveor_x (p0, z0, -257))
345
346 /*
347 ** eor_m512_s32_x:
348 ** eor z0\.s, z0\.s, #0xfffffe00
349 ** ret
350 */
351 TEST_UNIFORM_Z (eor_m512_s32_x, svint32_t,
352 z0 = sveor_n_s32_x (p0, z0, -512),
353 z0 = sveor_x (p0, z0, -512))
354
355 /*
356 ** eor_m32768_s32_x:
357 ** eor z0\.s, z0\.s, #0xffff8000
358 ** ret
359 */
360 TEST_UNIFORM_Z (eor_m32768_s32_x, svint32_t,
361 z0 = sveor_n_s32_x (p0, z0, -0x8000),
362 z0 = sveor_x (p0, z0, -0x8000))
363
364 /*
365 ** eor_5_s32_x:
366 ** mov (z[0-9]+)\.s, #5
367 ** eor z0\.d, (z0\.d, \1\.d|\1\.d, z0\.d)
368 ** ret
369 */
370 TEST_UNIFORM_Z (eor_5_s32_x, svint32_t,
371 z0 = sveor_n_s32_x (p0, z0, 5),
372 z0 = sveor_x (p0, z0, 5))