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1	664e0f19	bellard	/*
2	222a3336	balrog	* MMX/3DNow!/SSE/SSE2/SSE3/SSSE3/SSE4/PNI support
3	5fafdf24	ths	*
4	664e0f19	bellard	* Copyright (c) 2005 Fabrice Bellard
5	222a3336	balrog	* Copyright (c) 2008 Intel Corporation <andrew.zaborowski@intel.com>
6	664e0f19	bellard	*
7	664e0f19	bellard	* This library is free software; you can redistribute it and/or
8	664e0f19	bellard	* modify it under the terms of the GNU Lesser General Public
9	664e0f19	bellard	* License as published by the Free Software Foundation; either
10	664e0f19	bellard	* version 2 of the License, or (at your option) any later version.
11	664e0f19	bellard	*
12	664e0f19	bellard	* This library is distributed in the hope that it will be useful,
13	664e0f19	bellard	* but WITHOUT ANY WARRANTY; without even the implied warranty of
14	664e0f19	bellard	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15	664e0f19	bellard	* Lesser General Public License for more details.
16	664e0f19	bellard	*
17	664e0f19	bellard	* You should have received a copy of the GNU Lesser General Public
18	8167ee88	Blue Swirl	* License along with this library; if not, see <http://www.gnu.org/licenses/>.
19	664e0f19	bellard	*/
20	664e0f19	bellard	#if SHIFT == 0
21	664e0f19	bellard	#define Reg MMXReg
22	001faf32	Blue Swirl	#define XMM_ONLY(...)
23	664e0f19	bellard	#define B(n) MMX_B(n)
24	664e0f19	bellard	#define W(n) MMX_W(n)
25	664e0f19	bellard	#define L(n) MMX_L(n)
26	664e0f19	bellard	#define Q(n) q
27	664e0f19	bellard	#define SUFFIX _mmx
28	664e0f19	bellard	#else
29	664e0f19	bellard	#define Reg XMMReg
30	001faf32	Blue Swirl	#define XMM_ONLY(...) __VA_ARGS__
31	664e0f19	bellard	#define B(n) XMM_B(n)
32	664e0f19	bellard	#define W(n) XMM_W(n)
33	664e0f19	bellard	#define L(n) XMM_L(n)
34	664e0f19	bellard	#define Q(n) XMM_Q(n)
35	664e0f19	bellard	#define SUFFIX _xmm
36	664e0f19	bellard	#endif
37	664e0f19	bellard
38	5af45186	bellard	void glue(helper_psrlw, SUFFIX)(Reg d, Reg s)
39	664e0f19	bellard	{
40	664e0f19	bellard	int shift;
41	664e0f19	bellard
42	664e0f19	bellard	if (s->Q(0) > 15) {
43	664e0f19	bellard	d->Q(0) = 0;
44	664e0f19	bellard	#if SHIFT == 1
45	664e0f19	bellard	d->Q(1) = 0;
46	664e0f19	bellard	#endif
47	664e0f19	bellard	} else {
48	664e0f19	bellard	shift = s->B(0);
49	664e0f19	bellard	d->W(0) >>= shift;
50	664e0f19	bellard	d->W(1) >>= shift;
51	664e0f19	bellard	d->W(2) >>= shift;
52	664e0f19	bellard	d->W(3) >>= shift;
53	664e0f19	bellard	#if SHIFT == 1
54	664e0f19	bellard	d->W(4) >>= shift;
55	664e0f19	bellard	d->W(5) >>= shift;
56	664e0f19	bellard	d->W(6) >>= shift;
57	664e0f19	bellard	d->W(7) >>= shift;
58	664e0f19	bellard	#endif
59	664e0f19	bellard	}
60	664e0f19	bellard	}
61	664e0f19	bellard
62	5af45186	bellard	void glue(helper_psraw, SUFFIX)(Reg d, Reg s)
63	664e0f19	bellard	{
64	664e0f19	bellard	int shift;
65	664e0f19	bellard
66	664e0f19	bellard	if (s->Q(0) > 15) {
67	664e0f19	bellard	shift = 15;
68	664e0f19	bellard	} else {
69	664e0f19	bellard	shift = s->B(0);
70	664e0f19	bellard	}
71	664e0f19	bellard	d->W(0) = (int16_t)d->W(0) >> shift;
72	664e0f19	bellard	d->W(1) = (int16_t)d->W(1) >> shift;
73	664e0f19	bellard	d->W(2) = (int16_t)d->W(2) >> shift;
74	664e0f19	bellard	d->W(3) = (int16_t)d->W(3) >> shift;
75	664e0f19	bellard	#if SHIFT == 1
76	664e0f19	bellard	d->W(4) = (int16_t)d->W(4) >> shift;
77	664e0f19	bellard	d->W(5) = (int16_t)d->W(5) >> shift;
78	664e0f19	bellard	d->W(6) = (int16_t)d->W(6) >> shift;
79	664e0f19	bellard	d->W(7) = (int16_t)d->W(7) >> shift;
80	664e0f19	bellard	#endif
81	664e0f19	bellard	}
82	664e0f19	bellard
83	5af45186	bellard	void glue(helper_psllw, SUFFIX)(Reg d, Reg s)
84	664e0f19	bellard	{
85	664e0f19	bellard	int shift;
86	664e0f19	bellard
87	664e0f19	bellard	if (s->Q(0) > 15) {
88	664e0f19	bellard	d->Q(0) = 0;
89	664e0f19	bellard	#if SHIFT == 1
90	664e0f19	bellard	d->Q(1) = 0;
91	664e0f19	bellard	#endif
92	664e0f19	bellard	} else {
93	664e0f19	bellard	shift = s->B(0);
94	664e0f19	bellard	d->W(0) <<= shift;
95	664e0f19	bellard	d->W(1) <<= shift;
96	664e0f19	bellard	d->W(2) <<= shift;
97	664e0f19	bellard	d->W(3) <<= shift;
98	664e0f19	bellard	#if SHIFT == 1
99	664e0f19	bellard	d->W(4) <<= shift;
100	664e0f19	bellard	d->W(5) <<= shift;
101	664e0f19	bellard	d->W(6) <<= shift;
102	664e0f19	bellard	d->W(7) <<= shift;
103	664e0f19	bellard	#endif
104	664e0f19	bellard	}
105	664e0f19	bellard	}
106	664e0f19	bellard
107	5af45186	bellard	void glue(helper_psrld, SUFFIX)(Reg d, Reg s)
108	664e0f19	bellard	{
109	664e0f19	bellard	int shift;
110	664e0f19	bellard
111	664e0f19	bellard	if (s->Q(0) > 31) {
112	664e0f19	bellard	d->Q(0) = 0;
113	664e0f19	bellard	#if SHIFT == 1
114	664e0f19	bellard	d->Q(1) = 0;
115	664e0f19	bellard	#endif
116	664e0f19	bellard	} else {
117	664e0f19	bellard	shift = s->B(0);
118	664e0f19	bellard	d->L(0) >>= shift;
119	664e0f19	bellard	d->L(1) >>= shift;
120	664e0f19	bellard	#if SHIFT == 1
121	664e0f19	bellard	d->L(2) >>= shift;
122	664e0f19	bellard	d->L(3) >>= shift;
123	664e0f19	bellard	#endif
124	664e0f19	bellard	}
125	664e0f19	bellard	}
126	664e0f19	bellard
127	5af45186	bellard	void glue(helper_psrad, SUFFIX)(Reg d, Reg s)
128	664e0f19	bellard	{
129	664e0f19	bellard	int shift;
130	664e0f19	bellard
131	664e0f19	bellard	if (s->Q(0) > 31) {
132	664e0f19	bellard	shift = 31;
133	664e0f19	bellard	} else {
134	664e0f19	bellard	shift = s->B(0);
135	664e0f19	bellard	}
136	664e0f19	bellard	d->L(0) = (int32_t)d->L(0) >> shift;
137	664e0f19	bellard	d->L(1) = (int32_t)d->L(1) >> shift;
138	664e0f19	bellard	#if SHIFT == 1
139	664e0f19	bellard	d->L(2) = (int32_t)d->L(2) >> shift;
140	664e0f19	bellard	d->L(3) = (int32_t)d->L(3) >> shift;
141	664e0f19	bellard	#endif
142	664e0f19	bellard	}
143	664e0f19	bellard
144	5af45186	bellard	void glue(helper_pslld, SUFFIX)(Reg d, Reg s)
145	664e0f19	bellard	{
146	664e0f19	bellard	int shift;
147	664e0f19	bellard
148	664e0f19	bellard	if (s->Q(0) > 31) {
149	664e0f19	bellard	d->Q(0) = 0;
150	664e0f19	bellard	#if SHIFT == 1
151	664e0f19	bellard	d->Q(1) = 0;
152	664e0f19	bellard	#endif
153	664e0f19	bellard	} else {
154	664e0f19	bellard	shift = s->B(0);
155	664e0f19	bellard	d->L(0) <<= shift;
156	664e0f19	bellard	d->L(1) <<= shift;
157	664e0f19	bellard	#if SHIFT == 1
158	664e0f19	bellard	d->L(2) <<= shift;
159	664e0f19	bellard	d->L(3) <<= shift;
160	664e0f19	bellard	#endif
161	664e0f19	bellard	}
162	664e0f19	bellard	}
163	664e0f19	bellard
164	5af45186	bellard	void glue(helper_psrlq, SUFFIX)(Reg d, Reg s)
165	664e0f19	bellard	{
166	664e0f19	bellard	int shift;
167	664e0f19	bellard
168	664e0f19	bellard	if (s->Q(0) > 63) {
169	664e0f19	bellard	d->Q(0) = 0;
170	664e0f19	bellard	#if SHIFT == 1
171	664e0f19	bellard	d->Q(1) = 0;
172	664e0f19	bellard	#endif
173	664e0f19	bellard	} else {
174	664e0f19	bellard	shift = s->B(0);
175	664e0f19	bellard	d->Q(0) >>= shift;
176	664e0f19	bellard	#if SHIFT == 1
177	664e0f19	bellard	d->Q(1) >>= shift;
178	664e0f19	bellard	#endif
179	664e0f19	bellard	}
180	664e0f19	bellard	}
181	664e0f19	bellard
182	5af45186	bellard	void glue(helper_psllq, SUFFIX)(Reg d, Reg s)
183	664e0f19	bellard	{
184	664e0f19	bellard	int shift;
185	664e0f19	bellard
186	664e0f19	bellard	if (s->Q(0) > 63) {
187	664e0f19	bellard	d->Q(0) = 0;
188	664e0f19	bellard	#if SHIFT == 1
189	664e0f19	bellard	d->Q(1) = 0;
190	664e0f19	bellard	#endif
191	664e0f19	bellard	} else {
192	664e0f19	bellard	shift = s->B(0);
193	664e0f19	bellard	d->Q(0) <<= shift;
194	664e0f19	bellard	#if SHIFT == 1
195	664e0f19	bellard	d->Q(1) <<= shift;
196	664e0f19	bellard	#endif
197	664e0f19	bellard	}
198	664e0f19	bellard	}
199	664e0f19	bellard
200	664e0f19	bellard	#if SHIFT == 1
201	5af45186	bellard	void glue(helper_psrldq, SUFFIX)(Reg d, Reg s)
202	664e0f19	bellard	{
203	664e0f19	bellard	int shift, i;
204	664e0f19	bellard
205	664e0f19	bellard	shift = s->L(0);
206	664e0f19	bellard	if (shift > 16)
207	664e0f19	bellard	shift = 16;
208	664e0f19	bellard	for(i = 0; i < 16 - shift; i++)
209	664e0f19	bellard	d->B(i) = d->B(i + shift);
210	664e0f19	bellard	for(i = 16 - shift; i < 16; i++)
211	664e0f19	bellard	d->B(i) = 0;
212	664e0f19	bellard	}
213	664e0f19	bellard
214	5af45186	bellard	void glue(helper_pslldq, SUFFIX)(Reg d, Reg s)
215	664e0f19	bellard	{
216	664e0f19	bellard	int shift, i;
217	664e0f19	bellard
218	664e0f19	bellard	shift = s->L(0);
219	664e0f19	bellard	if (shift > 16)
220	664e0f19	bellard	shift = 16;
221	664e0f19	bellard	for(i = 15; i >= shift; i--)
222	664e0f19	bellard	d->B(i) = d->B(i - shift);
223	664e0f19	bellard	for(i = 0; i < shift; i++)
224	664e0f19	bellard	d->B(i) = 0;
225	664e0f19	bellard	}
226	664e0f19	bellard	#endif
227	664e0f19	bellard
228	5af45186	bellard	#define SSE_HELPER_B(name, F)\
229	5af45186	bellard	void glue(name, SUFFIX) (Reg d, Reg s)\
230	664e0f19	bellard	{\
231	664e0f19	bellard	d->B(0) = F(d->B(0), s->B(0));\
232	664e0f19	bellard	d->B(1) = F(d->B(1), s->B(1));\
233	664e0f19	bellard	d->B(2) = F(d->B(2), s->B(2));\
234	664e0f19	bellard	d->B(3) = F(d->B(3), s->B(3));\
235	664e0f19	bellard	d->B(4) = F(d->B(4), s->B(4));\
236	664e0f19	bellard	d->B(5) = F(d->B(5), s->B(5));\
237	664e0f19	bellard	d->B(6) = F(d->B(6), s->B(6));\
238	664e0f19	bellard	d->B(7) = F(d->B(7), s->B(7));\
239	664e0f19	bellard	XMM_ONLY(\
240	664e0f19	bellard	d->B(8) = F(d->B(8), s->B(8));\
241	664e0f19	bellard	d->B(9) = F(d->B(9), s->B(9));\
242	664e0f19	bellard	d->B(10) = F(d->B(10), s->B(10));\
243	664e0f19	bellard	d->B(11) = F(d->B(11), s->B(11));\
244	664e0f19	bellard	d->B(12) = F(d->B(12), s->B(12));\
245	664e0f19	bellard	d->B(13) = F(d->B(13), s->B(13));\
246	664e0f19	bellard	d->B(14) = F(d->B(14), s->B(14));\
247	664e0f19	bellard	d->B(15) = F(d->B(15), s->B(15));\
248	664e0f19	bellard	)\
249	664e0f19	bellard	}
250	664e0f19	bellard
251	5af45186	bellard	#define SSE_HELPER_W(name, F)\
252	5af45186	bellard	void glue(name, SUFFIX) (Reg d, Reg s)\
253	664e0f19	bellard	{\
254	664e0f19	bellard	d->W(0) = F(d->W(0), s->W(0));\
255	664e0f19	bellard	d->W(1) = F(d->W(1), s->W(1));\
256	664e0f19	bellard	d->W(2) = F(d->W(2), s->W(2));\
257	664e0f19	bellard	d->W(3) = F(d->W(3), s->W(3));\
258	664e0f19	bellard	XMM_ONLY(\
259	664e0f19	bellard	d->W(4) = F(d->W(4), s->W(4));\
260	664e0f19	bellard	d->W(5) = F(d->W(5), s->W(5));\
261	664e0f19	bellard	d->W(6) = F(d->W(6), s->W(6));\
262	664e0f19	bellard	d->W(7) = F(d->W(7), s->W(7));\
263	664e0f19	bellard	)\
264	664e0f19	bellard	}
265	664e0f19	bellard
266	5af45186	bellard	#define SSE_HELPER_L(name, F)\
267	5af45186	bellard	void glue(name, SUFFIX) (Reg d, Reg s)\
268	664e0f19	bellard	{\
269	664e0f19	bellard	d->L(0) = F(d->L(0), s->L(0));\
270	664e0f19	bellard	d->L(1) = F(d->L(1), s->L(1));\
271	664e0f19	bellard	XMM_ONLY(\
272	664e0f19	bellard	d->L(2) = F(d->L(2), s->L(2));\
273	664e0f19	bellard	d->L(3) = F(d->L(3), s->L(3));\
274	664e0f19	bellard	)\
275	664e0f19	bellard	}
276	664e0f19	bellard
277	5af45186	bellard	#define SSE_HELPER_Q(name, F)\
278	5af45186	bellard	void glue(name, SUFFIX) (Reg d, Reg s)\
279	664e0f19	bellard	{\
280	664e0f19	bellard	d->Q(0) = F(d->Q(0), s->Q(0));\
281	664e0f19	bellard	XMM_ONLY(\
282	664e0f19	bellard	d->Q(1) = F(d->Q(1), s->Q(1));\
283	664e0f19	bellard	)\
284	664e0f19	bellard	}
285	664e0f19	bellard
286	664e0f19	bellard	#if SHIFT == 0
287	664e0f19	bellard	static inline int satub(int x)
288	664e0f19	bellard	{
289	664e0f19	bellard	if (x < 0)
290	664e0f19	bellard	return 0;
291	664e0f19	bellard	else if (x > 255)
292	664e0f19	bellard	return 255;
293	664e0f19	bellard	else
294	664e0f19	bellard	return x;
295	664e0f19	bellard	}
296	664e0f19	bellard
297	664e0f19	bellard	static inline int satuw(int x)
298	664e0f19	bellard	{
299	664e0f19	bellard	if (x < 0)
300	664e0f19	bellard	return 0;
301	664e0f19	bellard	else if (x > 65535)
302	664e0f19	bellard	return 65535;
303	664e0f19	bellard	else
304	664e0f19	bellard	return x;
305	664e0f19	bellard	}
306	664e0f19	bellard
307	664e0f19	bellard	static inline int satsb(int x)
308	664e0f19	bellard	{
309	664e0f19	bellard	if (x < -128)
310	664e0f19	bellard	return -128;
311	664e0f19	bellard	else if (x > 127)
312	664e0f19	bellard	return 127;
313	664e0f19	bellard	else
314	664e0f19	bellard	return x;
315	664e0f19	bellard	}
316	664e0f19	bellard
317	664e0f19	bellard	static inline int satsw(int x)
318	664e0f19	bellard	{
319	664e0f19	bellard	if (x < -32768)
320	664e0f19	bellard	return -32768;
321	664e0f19	bellard	else if (x > 32767)
322	664e0f19	bellard	return 32767;
323	664e0f19	bellard	else
324	664e0f19	bellard	return x;
325	664e0f19	bellard	}
326	664e0f19	bellard
327	664e0f19	bellard	#define FADD(a, b) ((a) + (b))
328	664e0f19	bellard	#define FADDUB(a, b) satub((a) + (b))
329	664e0f19	bellard	#define FADDUW(a, b) satuw((a) + (b))
330	664e0f19	bellard	#define FADDSB(a, b) satsb((int8_t)(a) + (int8_t)(b))
331	664e0f19	bellard	#define FADDSW(a, b) satsw((int16_t)(a) + (int16_t)(b))
332	664e0f19	bellard
333	664e0f19	bellard	#define FSUB(a, b) ((a) - (b))
334	664e0f19	bellard	#define FSUBUB(a, b) satub((a) - (b))
335	664e0f19	bellard	#define FSUBUW(a, b) satuw((a) - (b))
336	664e0f19	bellard	#define FSUBSB(a, b) satsb((int8_t)(a) - (int8_t)(b))
337	664e0f19	bellard	#define FSUBSW(a, b) satsw((int16_t)(a) - (int16_t)(b))
338	664e0f19	bellard	#define FMINUB(a, b) ((a) < (b)) ? (a) : (b)
339	664e0f19	bellard	#define FMINSW(a, b) ((int16_t)(a) < (int16_t)(b)) ? (a) : (b)
340	664e0f19	bellard	#define FMAXUB(a, b) ((a) > (b)) ? (a) : (b)
341	664e0f19	bellard	#define FMAXSW(a, b) ((int16_t)(a) > (int16_t)(b)) ? (a) : (b)
342	664e0f19	bellard
343	664e0f19	bellard	#define FAND(a, b) (a) & (b)
344	664e0f19	bellard	#define FANDN(a, b) ((~(a)) & (b))
345	664e0f19	bellard	#define FOR(a, b) (a) \| (b)
346	664e0f19	bellard	#define FXOR(a, b) (a) ^ (b)
347	664e0f19	bellard
348	664e0f19	bellard	#define FCMPGTB(a, b) (int8_t)(a) > (int8_t)(b) ? -1 : 0
349	664e0f19	bellard	#define FCMPGTW(a, b) (int16_t)(a) > (int16_t)(b) ? -1 : 0
350	664e0f19	bellard	#define FCMPGTL(a, b) (int32_t)(a) > (int32_t)(b) ? -1 : 0
351	664e0f19	bellard	#define FCMPEQ(a, b) (a) == (b) ? -1 : 0
352	664e0f19	bellard
353	664e0f19	bellard	#define FMULLW(a, b) (a) * (b)
354	a35f3ec7	aurel32	#define FMULHRW(a, b) ((int16_t)(a) * (int16_t)(b) + 0x8000) >> 16
355	664e0f19	bellard	#define FMULHUW(a, b) (a) * (b) >> 16
356	664e0f19	bellard	#define FMULHW(a, b) (int16_t)(a) * (int16_t)(b) >> 16
357	664e0f19	bellard
358	664e0f19	bellard	#define FAVG(a, b) ((a) + (b) + 1) >> 1
359	664e0f19	bellard	#endif
360	664e0f19	bellard
361	5af45186	bellard	SSE_HELPER_B(helper_paddb, FADD)
362	5af45186	bellard	SSE_HELPER_W(helper_paddw, FADD)
363	5af45186	bellard	SSE_HELPER_L(helper_paddl, FADD)
364	5af45186	bellard	SSE_HELPER_Q(helper_paddq, FADD)
365	664e0f19	bellard
366	5af45186	bellard	SSE_HELPER_B(helper_psubb, FSUB)
367	5af45186	bellard	SSE_HELPER_W(helper_psubw, FSUB)
368	5af45186	bellard	SSE_HELPER_L(helper_psubl, FSUB)
369	5af45186	bellard	SSE_HELPER_Q(helper_psubq, FSUB)
370	664e0f19	bellard
371	5af45186	bellard	SSE_HELPER_B(helper_paddusb, FADDUB)
372	5af45186	bellard	SSE_HELPER_B(helper_paddsb, FADDSB)
373	5af45186	bellard	SSE_HELPER_B(helper_psubusb, FSUBUB)
374	5af45186	bellard	SSE_HELPER_B(helper_psubsb, FSUBSB)
375	664e0f19	bellard
376	5af45186	bellard	SSE_HELPER_W(helper_paddusw, FADDUW)
377	5af45186	bellard	SSE_HELPER_W(helper_paddsw, FADDSW)
378	5af45186	bellard	SSE_HELPER_W(helper_psubusw, FSUBUW)
379	5af45186	bellard	SSE_HELPER_W(helper_psubsw, FSUBSW)
380	664e0f19	bellard
381	5af45186	bellard	SSE_HELPER_B(helper_pminub, FMINUB)
382	5af45186	bellard	SSE_HELPER_B(helper_pmaxub, FMAXUB)
383	664e0f19	bellard
384	5af45186	bellard	SSE_HELPER_W(helper_pminsw, FMINSW)
385	5af45186	bellard	SSE_HELPER_W(helper_pmaxsw, FMAXSW)
386	664e0f19	bellard
387	5af45186	bellard	SSE_HELPER_Q(helper_pand, FAND)
388	5af45186	bellard	SSE_HELPER_Q(helper_pandn, FANDN)
389	5af45186	bellard	SSE_HELPER_Q(helper_por, FOR)
390	5af45186	bellard	SSE_HELPER_Q(helper_pxor, FXOR)
391	664e0f19	bellard
392	5af45186	bellard	SSE_HELPER_B(helper_pcmpgtb, FCMPGTB)
393	5af45186	bellard	SSE_HELPER_W(helper_pcmpgtw, FCMPGTW)
394	5af45186	bellard	SSE_HELPER_L(helper_pcmpgtl, FCMPGTL)
395	664e0f19	bellard
396	5af45186	bellard	SSE_HELPER_B(helper_pcmpeqb, FCMPEQ)
397	5af45186	bellard	SSE_HELPER_W(helper_pcmpeqw, FCMPEQ)
398	5af45186	bellard	SSE_HELPER_L(helper_pcmpeql, FCMPEQ)
399	664e0f19	bellard
400	5af45186	bellard	SSE_HELPER_W(helper_pmullw, FMULLW)
401	a35f3ec7	aurel32	#if SHIFT == 0
402	5af45186	bellard	SSE_HELPER_W(helper_pmulhrw, FMULHRW)
403	a35f3ec7	aurel32	#endif
404	5af45186	bellard	SSE_HELPER_W(helper_pmulhuw, FMULHUW)
405	5af45186	bellard	SSE_HELPER_W(helper_pmulhw, FMULHW)
406	664e0f19	bellard
407	5af45186	bellard	SSE_HELPER_B(helper_pavgb, FAVG)
408	5af45186	bellard	SSE_HELPER_W(helper_pavgw, FAVG)
409	664e0f19	bellard
410	5af45186	bellard	void glue(helper_pmuludq, SUFFIX) (Reg d, Reg s)
411	664e0f19	bellard	{
412	664e0f19	bellard	d->Q(0) = (uint64_t)s->L(0) * (uint64_t)d->L(0);
413	664e0f19	bellard	#if SHIFT == 1
414	664e0f19	bellard	d->Q(1) = (uint64_t)s->L(2) * (uint64_t)d->L(2);
415	664e0f19	bellard	#endif
416	664e0f19	bellard	}
417	664e0f19	bellard
418	5af45186	bellard	void glue(helper_pmaddwd, SUFFIX) (Reg d, Reg s)
419	664e0f19	bellard	{
420	664e0f19	bellard	int i;
421	664e0f19	bellard
422	664e0f19	bellard	for(i = 0; i < (2 << SHIFT); i++) {
423	664e0f19	bellard	d->L(i) = (int16_t)s->W(2i) (int16_t)d->W(2*i) +
424	664e0f19	bellard	(int16_t)s->W(2i+1) (int16_t)d->W(2*i+1);
425	664e0f19	bellard	}
426	664e0f19	bellard	}
427	664e0f19	bellard
428	664e0f19	bellard	#if SHIFT == 0
429	664e0f19	bellard	static inline int abs1(int a)
430	664e0f19	bellard	{
431	664e0f19	bellard	if (a < 0)
432	664e0f19	bellard	return -a;
433	664e0f19	bellard	else
434	664e0f19	bellard	return a;
435	664e0f19	bellard	}
436	664e0f19	bellard	#endif
437	5af45186	bellard	void glue(helper_psadbw, SUFFIX) (Reg d, Reg s)
438	664e0f19	bellard	{
439	664e0f19	bellard	unsigned int val;
440	664e0f19	bellard
441	664e0f19	bellard	val = 0;
442	664e0f19	bellard	val += abs1(d->B(0) - s->B(0));
443	664e0f19	bellard	val += abs1(d->B(1) - s->B(1));
444	664e0f19	bellard	val += abs1(d->B(2) - s->B(2));
445	664e0f19	bellard	val += abs1(d->B(3) - s->B(3));
446	664e0f19	bellard	val += abs1(d->B(4) - s->B(4));
447	664e0f19	bellard	val += abs1(d->B(5) - s->B(5));
448	664e0f19	bellard	val += abs1(d->B(6) - s->B(6));
449	664e0f19	bellard	val += abs1(d->B(7) - s->B(7));
450	664e0f19	bellard	d->Q(0) = val;
451	664e0f19	bellard	#if SHIFT == 1
452	664e0f19	bellard	val = 0;
453	664e0f19	bellard	val += abs1(d->B(8) - s->B(8));
454	664e0f19	bellard	val += abs1(d->B(9) - s->B(9));
455	664e0f19	bellard	val += abs1(d->B(10) - s->B(10));
456	664e0f19	bellard	val += abs1(d->B(11) - s->B(11));
457	664e0f19	bellard	val += abs1(d->B(12) - s->B(12));
458	664e0f19	bellard	val += abs1(d->B(13) - s->B(13));
459	664e0f19	bellard	val += abs1(d->B(14) - s->B(14));
460	664e0f19	bellard	val += abs1(d->B(15) - s->B(15));
461	664e0f19	bellard	d->Q(1) = val;
462	664e0f19	bellard	#endif
463	664e0f19	bellard	}
464	664e0f19	bellard
465	b8b6a50b	bellard	void glue(helper_maskmov, SUFFIX) (Reg d, Reg s, target_ulong a0)
466	664e0f19	bellard	{
467	664e0f19	bellard	int i;
468	664e0f19	bellard	for(i = 0; i < (8 << SHIFT); i++) {
469	664e0f19	bellard	if (s->B(i) & 0x80)
470	b8b6a50b	bellard	stb(a0 + i, d->B(i));
471	664e0f19	bellard	}
472	664e0f19	bellard	}
473	664e0f19	bellard
474	5af45186	bellard	void glue(helper_movl_mm_T0, SUFFIX) (Reg *d, uint32_t val)
475	664e0f19	bellard	{
476	5af45186	bellard	d->L(0) = val;
477	664e0f19	bellard	d->L(1) = 0;
478	664e0f19	bellard	#if SHIFT == 1
479	664e0f19	bellard	d->Q(1) = 0;
480	664e0f19	bellard	#endif
481	664e0f19	bellard	}
482	664e0f19	bellard
483	dabd98dd	bellard	#ifdef TARGET_X86_64
484	5af45186	bellard	void glue(helper_movq_mm_T0, SUFFIX) (Reg *d, uint64_t val)
485	dabd98dd	bellard	{
486	5af45186	bellard	d->Q(0) = val;
487	dabd98dd	bellard	#if SHIFT == 1
488	dabd98dd	bellard	d->Q(1) = 0;
489	dabd98dd	bellard	#endif
490	dabd98dd	bellard	}
491	dabd98dd	bellard	#endif
492	dabd98dd	bellard
493	664e0f19	bellard	#if SHIFT == 0
494	5af45186	bellard	void glue(helper_pshufw, SUFFIX) (Reg d, Reg s, int order)
495	664e0f19	bellard	{
496	5af45186	bellard	Reg r;
497	664e0f19	bellard	r.W(0) = s->W(order & 3);
498	664e0f19	bellard	r.W(1) = s->W((order >> 2) & 3);
499	664e0f19	bellard	r.W(2) = s->W((order >> 4) & 3);
500	664e0f19	bellard	r.W(3) = s->W((order >> 6) & 3);
501	664e0f19	bellard	*d = r;
502	664e0f19	bellard	}
503	664e0f19	bellard	#else
504	5af45186	bellard	void helper_shufps(Reg d, Reg s, int order)
505	d52cf7a6	bellard	{
506	5af45186	bellard	Reg r;
507	d52cf7a6	bellard	r.L(0) = d->L(order & 3);
508	d52cf7a6	bellard	r.L(1) = d->L((order >> 2) & 3);
509	d52cf7a6	bellard	r.L(2) = s->L((order >> 4) & 3);
510	d52cf7a6	bellard	r.L(3) = s->L((order >> 6) & 3);
511	d52cf7a6	bellard	*d = r;
512	d52cf7a6	bellard	}
513	d52cf7a6	bellard
514	5af45186	bellard	void helper_shufpd(Reg d, Reg s, int order)
515	664e0f19	bellard	{
516	5af45186	bellard	Reg r;
517	d52cf7a6	bellard	r.Q(0) = d->Q(order & 1);
518	664e0f19	bellard	r.Q(1) = s->Q((order >> 1) & 1);
519	664e0f19	bellard	*d = r;
520	664e0f19	bellard	}
521	664e0f19	bellard
522	5af45186	bellard	void glue(helper_pshufd, SUFFIX) (Reg d, Reg s, int order)
523	664e0f19	bellard	{
524	5af45186	bellard	Reg r;
525	664e0f19	bellard	r.L(0) = s->L(order & 3);
526	664e0f19	bellard	r.L(1) = s->L((order >> 2) & 3);
527	664e0f19	bellard	r.L(2) = s->L((order >> 4) & 3);
528	664e0f19	bellard	r.L(3) = s->L((order >> 6) & 3);
529	664e0f19	bellard	*d = r;
530	664e0f19	bellard	}
531	664e0f19	bellard
532	5af45186	bellard	void glue(helper_pshuflw, SUFFIX) (Reg d, Reg s, int order)
533	664e0f19	bellard	{
534	5af45186	bellard	Reg r;
535	664e0f19	bellard	r.W(0) = s->W(order & 3);
536	664e0f19	bellard	r.W(1) = s->W((order >> 2) & 3);
537	664e0f19	bellard	r.W(2) = s->W((order >> 4) & 3);
538	664e0f19	bellard	r.W(3) = s->W((order >> 6) & 3);
539	664e0f19	bellard	r.Q(1) = s->Q(1);
540	664e0f19	bellard	*d = r;
541	664e0f19	bellard	}
542	664e0f19	bellard
543	5af45186	bellard	void glue(helper_pshufhw, SUFFIX) (Reg d, Reg s, int order)
544	664e0f19	bellard	{
545	5af45186	bellard	Reg r;
546	664e0f19	bellard	r.Q(0) = s->Q(0);
547	664e0f19	bellard	r.W(4) = s->W(4 + (order & 3));
548	664e0f19	bellard	r.W(5) = s->W(4 + ((order >> 2) & 3));
549	664e0f19	bellard	r.W(6) = s->W(4 + ((order >> 4) & 3));
550	664e0f19	bellard	r.W(7) = s->W(4 + ((order >> 6) & 3));
551	664e0f19	bellard	*d = r;
552	664e0f19	bellard	}
553	664e0f19	bellard	#endif
554	664e0f19	bellard
555	664e0f19	bellard	#if SHIFT == 1
556	664e0f19	bellard	/* FPU ops */
557	664e0f19	bellard	/* XXX: not accurate */
558	664e0f19	bellard
559	5af45186	bellard	#define SSE_HELPER_S(name, F)\
560	5af45186	bellard	void helper_ ## name ## ps (Reg d, Reg s)\
561	664e0f19	bellard	{\
562	7a0e1f41	bellard	d->XMM_S(0) = F(32, d->XMM_S(0), s->XMM_S(0));\
563	7a0e1f41	bellard	d->XMM_S(1) = F(32, d->XMM_S(1), s->XMM_S(1));\
564	7a0e1f41	bellard	d->XMM_S(2) = F(32, d->XMM_S(2), s->XMM_S(2));\
565	7a0e1f41	bellard	d->XMM_S(3) = F(32, d->XMM_S(3), s->XMM_S(3));\
566	664e0f19	bellard	}\
567	664e0f19	bellard	\
568	5af45186	bellard	void helper_ ## name ## ss (Reg d, Reg s)\
569	664e0f19	bellard	{\
570	7a0e1f41	bellard	d->XMM_S(0) = F(32, d->XMM_S(0), s->XMM_S(0));\
571	664e0f19	bellard	}\
572	5af45186	bellard	void helper_ ## name ## pd (Reg d, Reg s)\
573	664e0f19	bellard	{\
574	7a0e1f41	bellard	d->XMM_D(0) = F(64, d->XMM_D(0), s->XMM_D(0));\
575	7a0e1f41	bellard	d->XMM_D(1) = F(64, d->XMM_D(1), s->XMM_D(1));\
576	664e0f19	bellard	}\
577	664e0f19	bellard	\
578	5af45186	bellard	void helper_ ## name ## sd (Reg d, Reg s)\
579	664e0f19	bellard	{\
580	7a0e1f41	bellard	d->XMM_D(0) = F(64, d->XMM_D(0), s->XMM_D(0));\
581	664e0f19	bellard	}
582	664e0f19	bellard
583	7a0e1f41	bellard	#define FPU_ADD(size, a, b) float ## size ## _add(a, b, &env->sse_status)
584	7a0e1f41	bellard	#define FPU_SUB(size, a, b) float ## size ## _sub(a, b, &env->sse_status)
585	7a0e1f41	bellard	#define FPU_MUL(size, a, b) float ## size ## _mul(a, b, &env->sse_status)
586	7a0e1f41	bellard	#define FPU_DIV(size, a, b) float ## size ## _div(a, b, &env->sse_status)
587	7a0e1f41	bellard	#define FPU_MIN(size, a, b) (a) < (b) ? (a) : (b)
588	7a0e1f41	bellard	#define FPU_MAX(size, a, b) (a) > (b) ? (a) : (b)
589	7a0e1f41	bellard	#define FPU_SQRT(size, a, b) float ## size ## _sqrt(b, &env->sse_status)
590	664e0f19	bellard
591	5af45186	bellard	SSE_HELPER_S(add, FPU_ADD)
592	5af45186	bellard	SSE_HELPER_S(sub, FPU_SUB)
593	5af45186	bellard	SSE_HELPER_S(mul, FPU_MUL)
594	5af45186	bellard	SSE_HELPER_S(div, FPU_DIV)
595	5af45186	bellard	SSE_HELPER_S(min, FPU_MIN)
596	5af45186	bellard	SSE_HELPER_S(max, FPU_MAX)
597	5af45186	bellard	SSE_HELPER_S(sqrt, FPU_SQRT)
598	664e0f19	bellard
599	664e0f19	bellard
600	664e0f19	bellard	/* float to float conversions */
601	5af45186	bellard	void helper_cvtps2pd(Reg d, Reg s)
602	664e0f19	bellard	{
603	8422b113	bellard	float32 s0, s1;
604	664e0f19	bellard	s0 = s->XMM_S(0);
605	664e0f19	bellard	s1 = s->XMM_S(1);
606	7a0e1f41	bellard	d->XMM_D(0) = float32_to_float64(s0, &env->sse_status);
607	7a0e1f41	bellard	d->XMM_D(1) = float32_to_float64(s1, &env->sse_status);
608	664e0f19	bellard	}
609	664e0f19	bellard
610	5af45186	bellard	void helper_cvtpd2ps(Reg d, Reg s)
611	664e0f19	bellard	{
612	7a0e1f41	bellard	d->XMM_S(0) = float64_to_float32(s->XMM_D(0), &env->sse_status);
613	7a0e1f41	bellard	d->XMM_S(1) = float64_to_float32(s->XMM_D(1), &env->sse_status);
614	664e0f19	bellard	d->Q(1) = 0;
615	664e0f19	bellard	}
616	664e0f19	bellard
617	5af45186	bellard	void helper_cvtss2sd(Reg d, Reg s)
618	664e0f19	bellard	{
619	7a0e1f41	bellard	d->XMM_D(0) = float32_to_float64(s->XMM_S(0), &env->sse_status);
620	664e0f19	bellard	}
621	664e0f19	bellard
622	5af45186	bellard	void helper_cvtsd2ss(Reg d, Reg s)
623	664e0f19	bellard	{
624	7a0e1f41	bellard	d->XMM_S(0) = float64_to_float32(s->XMM_D(0), &env->sse_status);
625	664e0f19	bellard	}
626	664e0f19	bellard
627	664e0f19	bellard	/* integer to float */
628	5af45186	bellard	void helper_cvtdq2ps(Reg d, Reg s)
629	664e0f19	bellard	{
630	7a0e1f41	bellard	d->XMM_S(0) = int32_to_float32(s->XMM_L(0), &env->sse_status);
631	7a0e1f41	bellard	d->XMM_S(1) = int32_to_float32(s->XMM_L(1), &env->sse_status);
632	7a0e1f41	bellard	d->XMM_S(2) = int32_to_float32(s->XMM_L(2), &env->sse_status);
633	7a0e1f41	bellard	d->XMM_S(3) = int32_to_float32(s->XMM_L(3), &env->sse_status);
634	664e0f19	bellard	}
635	664e0f19	bellard
636	5af45186	bellard	void helper_cvtdq2pd(Reg d, Reg s)
637	664e0f19	bellard	{
638	664e0f19	bellard	int32_t l0, l1;
639	664e0f19	bellard	l0 = (int32_t)s->XMM_L(0);
640	664e0f19	bellard	l1 = (int32_t)s->XMM_L(1);
641	7a0e1f41	bellard	d->XMM_D(0) = int32_to_float64(l0, &env->sse_status);
642	7a0e1f41	bellard	d->XMM_D(1) = int32_to_float64(l1, &env->sse_status);
643	664e0f19	bellard	}
644	664e0f19	bellard
645	5af45186	bellard	void helper_cvtpi2ps(XMMReg d, MMXReg s)
646	664e0f19	bellard	{
647	7a0e1f41	bellard	d->XMM_S(0) = int32_to_float32(s->MMX_L(0), &env->sse_status);
648	7a0e1f41	bellard	d->XMM_S(1) = int32_to_float32(s->MMX_L(1), &env->sse_status);
649	664e0f19	bellard	}
650	664e0f19	bellard
651	5af45186	bellard	void helper_cvtpi2pd(XMMReg d, MMXReg s)
652	664e0f19	bellard	{
653	7a0e1f41	bellard	d->XMM_D(0) = int32_to_float64(s->MMX_L(0), &env->sse_status);
654	7a0e1f41	bellard	d->XMM_D(1) = int32_to_float64(s->MMX_L(1), &env->sse_status);
655	664e0f19	bellard	}
656	664e0f19	bellard
657	5af45186	bellard	void helper_cvtsi2ss(XMMReg *d, uint32_t val)
658	664e0f19	bellard	{
659	5af45186	bellard	d->XMM_S(0) = int32_to_float32(val, &env->sse_status);
660	664e0f19	bellard	}
661	664e0f19	bellard
662	5af45186	bellard	void helper_cvtsi2sd(XMMReg *d, uint32_t val)
663	664e0f19	bellard	{
664	5af45186	bellard	d->XMM_D(0) = int32_to_float64(val, &env->sse_status);
665	664e0f19	bellard	}
666	664e0f19	bellard
667	664e0f19	bellard	#ifdef TARGET_X86_64
668	5af45186	bellard	void helper_cvtsq2ss(XMMReg *d, uint64_t val)
669	664e0f19	bellard	{
670	5af45186	bellard	d->XMM_S(0) = int64_to_float32(val, &env->sse_status);
671	664e0f19	bellard	}
672	664e0f19	bellard
673	5af45186	bellard	void helper_cvtsq2sd(XMMReg *d, uint64_t val)
674	664e0f19	bellard	{
675	5af45186	bellard	d->XMM_D(0) = int64_to_float64(val, &env->sse_status);
676	664e0f19	bellard	}
677	664e0f19	bellard	#endif
678	664e0f19	bellard
679	664e0f19	bellard	/* float to integer */
680	5af45186	bellard	void helper_cvtps2dq(XMMReg d, XMMReg s)
681	664e0f19	bellard	{
682	7a0e1f41	bellard	d->XMM_L(0) = float32_to_int32(s->XMM_S(0), &env->sse_status);
683	7a0e1f41	bellard	d->XMM_L(1) = float32_to_int32(s->XMM_S(1), &env->sse_status);
684	7a0e1f41	bellard	d->XMM_L(2) = float32_to_int32(s->XMM_S(2), &env->sse_status);
685	7a0e1f41	bellard	d->XMM_L(3) = float32_to_int32(s->XMM_S(3), &env->sse_status);
686	664e0f19	bellard	}
687	664e0f19	bellard
688	5af45186	bellard	void helper_cvtpd2dq(XMMReg d, XMMReg s)
689	664e0f19	bellard	{
690	7a0e1f41	bellard	d->XMM_L(0) = float64_to_int32(s->XMM_D(0), &env->sse_status);
691	7a0e1f41	bellard	d->XMM_L(1) = float64_to_int32(s->XMM_D(1), &env->sse_status);
692	664e0f19	bellard	d->XMM_Q(1) = 0;
693	664e0f19	bellard	}
694	664e0f19	bellard
695	5af45186	bellard	void helper_cvtps2pi(MMXReg d, XMMReg s)
696	664e0f19	bellard	{
697	7a0e1f41	bellard	d->MMX_L(0) = float32_to_int32(s->XMM_S(0), &env->sse_status);
698	7a0e1f41	bellard	d->MMX_L(1) = float32_to_int32(s->XMM_S(1), &env->sse_status);
699	664e0f19	bellard	}
700	664e0f19	bellard
701	5af45186	bellard	void helper_cvtpd2pi(MMXReg d, XMMReg s)
702	664e0f19	bellard	{
703	7a0e1f41	bellard	d->MMX_L(0) = float64_to_int32(s->XMM_D(0), &env->sse_status);
704	7a0e1f41	bellard	d->MMX_L(1) = float64_to_int32(s->XMM_D(1), &env->sse_status);
705	664e0f19	bellard	}
706	664e0f19	bellard
707	5af45186	bellard	int32_t helper_cvtss2si(XMMReg *s)
708	664e0f19	bellard	{
709	5af45186	bellard	return float32_to_int32(s->XMM_S(0), &env->sse_status);
710	664e0f19	bellard	}
711	664e0f19	bellard
712	5af45186	bellard	int32_t helper_cvtsd2si(XMMReg *s)
713	664e0f19	bellard	{
714	5af45186	bellard	return float64_to_int32(s->XMM_D(0), &env->sse_status);
715	664e0f19	bellard	}
716	664e0f19	bellard
717	664e0f19	bellard	#ifdef TARGET_X86_64
718	5af45186	bellard	int64_t helper_cvtss2sq(XMMReg *s)
719	664e0f19	bellard	{
720	5af45186	bellard	return float32_to_int64(s->XMM_S(0), &env->sse_status);
721	664e0f19	bellard	}
722	664e0f19	bellard
723	5af45186	bellard	int64_t helper_cvtsd2sq(XMMReg *s)
724	664e0f19	bellard	{
725	5af45186	bellard	return float64_to_int64(s->XMM_D(0), &env->sse_status);
726	664e0f19	bellard	}
727	664e0f19	bellard	#endif
728	664e0f19	bellard
729	664e0f19	bellard	/* float to integer truncated */
730	5af45186	bellard	void helper_cvttps2dq(XMMReg d, XMMReg s)
731	664e0f19	bellard	{
732	7a0e1f41	bellard	d->XMM_L(0) = float32_to_int32_round_to_zero(s->XMM_S(0), &env->sse_status);
733	7a0e1f41	bellard	d->XMM_L(1) = float32_to_int32_round_to_zero(s->XMM_S(1), &env->sse_status);
734	7a0e1f41	bellard	d->XMM_L(2) = float32_to_int32_round_to_zero(s->XMM_S(2), &env->sse_status);
735	7a0e1f41	bellard	d->XMM_L(3) = float32_to_int32_round_to_zero(s->XMM_S(3), &env->sse_status);
736	664e0f19	bellard	}
737	664e0f19	bellard
738	5af45186	bellard	void helper_cvttpd2dq(XMMReg d, XMMReg s)
739	664e0f19	bellard	{
740	7a0e1f41	bellard	d->XMM_L(0) = float64_to_int32_round_to_zero(s->XMM_D(0), &env->sse_status);
741	7a0e1f41	bellard	d->XMM_L(1) = float64_to_int32_round_to_zero(s->XMM_D(1), &env->sse_status);
742	664e0f19	bellard	d->XMM_Q(1) = 0;
743	664e0f19	bellard	}
744	664e0f19	bellard
745	5af45186	bellard	void helper_cvttps2pi(MMXReg d, XMMReg s)
746	664e0f19	bellard	{
747	7a0e1f41	bellard	d->MMX_L(0) = float32_to_int32_round_to_zero(s->XMM_S(0), &env->sse_status);
748	7a0e1f41	bellard	d->MMX_L(1) = float32_to_int32_round_to_zero(s->XMM_S(1), &env->sse_status);
749	664e0f19	bellard	}
750	664e0f19	bellard
751	5af45186	bellard	void helper_cvttpd2pi(MMXReg d, XMMReg s)
752	664e0f19	bellard	{
753	7a0e1f41	bellard	d->MMX_L(0) = float64_to_int32_round_to_zero(s->XMM_D(0), &env->sse_status);
754	7a0e1f41	bellard	d->MMX_L(1) = float64_to_int32_round_to_zero(s->XMM_D(1), &env->sse_status);
755	664e0f19	bellard	}
756	664e0f19	bellard
757	5af45186	bellard	int32_t helper_cvttss2si(XMMReg *s)
758	664e0f19	bellard	{
759	5af45186	bellard	return float32_to_int32_round_to_zero(s->XMM_S(0), &env->sse_status);
760	664e0f19	bellard	}
761	664e0f19	bellard
762	5af45186	bellard	int32_t helper_cvttsd2si(XMMReg *s)
763	664e0f19	bellard	{
764	5af45186	bellard	return float64_to_int32_round_to_zero(s->XMM_D(0), &env->sse_status);
765	664e0f19	bellard	}
766	664e0f19	bellard
767	664e0f19	bellard	#ifdef TARGET_X86_64
768	5af45186	bellard	int64_t helper_cvttss2sq(XMMReg *s)
769	664e0f19	bellard	{
770	5af45186	bellard	return float32_to_int64_round_to_zero(s->XMM_S(0), &env->sse_status);
771	664e0f19	bellard	}
772	664e0f19	bellard
773	5af45186	bellard	int64_t helper_cvttsd2sq(XMMReg *s)
774	664e0f19	bellard	{
775	5af45186	bellard	return float64_to_int64_round_to_zero(s->XMM_D(0), &env->sse_status);
776	664e0f19	bellard	}
777	664e0f19	bellard	#endif
778	664e0f19	bellard
779	5af45186	bellard	void helper_rsqrtps(XMMReg d, XMMReg s)
780	664e0f19	bellard	{
781	c2ef9a83	Aurelien Jarno	d->XMM_S(0) = float32_div(float32_one,
782	c2ef9a83	Aurelien Jarno	float32_sqrt(s->XMM_S(0), &env->sse_status),
783	c2ef9a83	Aurelien Jarno	&env->sse_status);
784	c2ef9a83	Aurelien Jarno	d->XMM_S(1) = float32_div(float32_one,
785	c2ef9a83	Aurelien Jarno	float32_sqrt(s->XMM_S(1), &env->sse_status),
786	c2ef9a83	Aurelien Jarno	&env->sse_status);
787	c2ef9a83	Aurelien Jarno	d->XMM_S(2) = float32_div(float32_one,
788	c2ef9a83	Aurelien Jarno	float32_sqrt(s->XMM_S(2), &env->sse_status),
789	c2ef9a83	Aurelien Jarno	&env->sse_status);
790	c2ef9a83	Aurelien Jarno	d->XMM_S(3) = float32_div(float32_one,
791	c2ef9a83	Aurelien Jarno	float32_sqrt(s->XMM_S(3), &env->sse_status),
792	c2ef9a83	Aurelien Jarno	&env->sse_status);
793	664e0f19	bellard	}
794	664e0f19	bellard
795	5af45186	bellard	void helper_rsqrtss(XMMReg d, XMMReg s)
796	664e0f19	bellard	{
797	c2ef9a83	Aurelien Jarno	d->XMM_S(0) = float32_div(float32_one,
798	c2ef9a83	Aurelien Jarno	float32_sqrt(s->XMM_S(0), &env->sse_status),
799	c2ef9a83	Aurelien Jarno	&env->sse_status);
800	664e0f19	bellard	}
801	664e0f19	bellard
802	5af45186	bellard	void helper_rcpps(XMMReg d, XMMReg s)
803	664e0f19	bellard	{
804	c2ef9a83	Aurelien Jarno	d->XMM_S(0) = float32_div(float32_one, s->XMM_S(0), &env->sse_status);
805	c2ef9a83	Aurelien Jarno	d->XMM_S(1) = float32_div(float32_one, s->XMM_S(1), &env->sse_status);
806	c2ef9a83	Aurelien Jarno	d->XMM_S(2) = float32_div(float32_one, s->XMM_S(2), &env->sse_status);
807	c2ef9a83	Aurelien Jarno	d->XMM_S(3) = float32_div(float32_one, s->XMM_S(3), &env->sse_status);
808	664e0f19	bellard	}
809	664e0f19	bellard
810	5af45186	bellard	void helper_rcpss(XMMReg d, XMMReg s)
811	664e0f19	bellard	{
812	c2ef9a83	Aurelien Jarno	d->XMM_S(0) = float32_div(float32_one, s->XMM_S(0), &env->sse_status);
813	664e0f19	bellard	}
814	664e0f19	bellard
815	d9f4bb27	Andre Przywara	static inline uint64_t helper_extrq(uint64_t src, int shift, int len)
816	d9f4bb27	Andre Przywara	{
817	d9f4bb27	Andre Przywara	uint64_t mask;
818	d9f4bb27	Andre Przywara
819	d9f4bb27	Andre Przywara	if (len == 0) {
820	d9f4bb27	Andre Przywara	mask = ~0LL;
821	d9f4bb27	Andre Przywara	} else {
822	d9f4bb27	Andre Przywara	mask = (1ULL << len) - 1;
823	d9f4bb27	Andre Przywara	}
824	d9f4bb27	Andre Przywara	return (src >> shift) & mask;
825	d9f4bb27	Andre Przywara	}
826	d9f4bb27	Andre Przywara
827	d9f4bb27	Andre Przywara	void helper_extrq_r(XMMReg d, XMMReg s)
828	d9f4bb27	Andre Przywara	{
829	d9f4bb27	Andre Przywara	d->XMM_Q(0) = helper_extrq(d->XMM_Q(0), s->XMM_B(1), s->XMM_B(0));
830	d9f4bb27	Andre Przywara	}
831	d9f4bb27	Andre Przywara
832	d9f4bb27	Andre Przywara	void helper_extrq_i(XMMReg *d, int index, int length)
833	d9f4bb27	Andre Przywara	{
834	d9f4bb27	Andre Przywara	d->XMM_Q(0) = helper_extrq(d->XMM_Q(0), index, length);
835	d9f4bb27	Andre Przywara	}
836	d9f4bb27	Andre Przywara
837	d9f4bb27	Andre Przywara	static inline uint64_t helper_insertq(uint64_t src, int shift, int len)
838	d9f4bb27	Andre Przywara	{
839	d9f4bb27	Andre Przywara	uint64_t mask;
840	d9f4bb27	Andre Przywara
841	d9f4bb27	Andre Przywara	if (len == 0) {
842	d9f4bb27	Andre Przywara	mask = ~0ULL;
843	d9f4bb27	Andre Przywara	} else {
844	d9f4bb27	Andre Przywara	mask = (1ULL << len) - 1;
845	d9f4bb27	Andre Przywara	}
846	d9f4bb27	Andre Przywara	return (src & ~(mask << shift)) \| ((src & mask) << shift);
847	d9f4bb27	Andre Przywara	}
848	d9f4bb27	Andre Przywara
849	d9f4bb27	Andre Przywara	void helper_insertq_r(XMMReg d, XMMReg s)
850	d9f4bb27	Andre Przywara	{
851	d9f4bb27	Andre Przywara	d->XMM_Q(0) = helper_insertq(s->XMM_Q(0), s->XMM_B(9), s->XMM_B(8));
852	d9f4bb27	Andre Przywara	}
853	d9f4bb27	Andre Przywara
854	d9f4bb27	Andre Przywara	void helper_insertq_i(XMMReg *d, int index, int length)
855	d9f4bb27	Andre Przywara	{
856	d9f4bb27	Andre Przywara	d->XMM_Q(0) = helper_insertq(d->XMM_Q(0), index, length);
857	d9f4bb27	Andre Przywara	}
858	d9f4bb27	Andre Przywara
859	5af45186	bellard	void helper_haddps(XMMReg d, XMMReg s)
860	664e0f19	bellard	{
861	664e0f19	bellard	XMMReg r;
862	664e0f19	bellard	r.XMM_S(0) = d->XMM_S(0) + d->XMM_S(1);
863	664e0f19	bellard	r.XMM_S(1) = d->XMM_S(2) + d->XMM_S(3);
864	664e0f19	bellard	r.XMM_S(2) = s->XMM_S(0) + s->XMM_S(1);
865	664e0f19	bellard	r.XMM_S(3) = s->XMM_S(2) + s->XMM_S(3);
866	664e0f19	bellard	*d = r;
867	664e0f19	bellard	}
868	664e0f19	bellard
869	5af45186	bellard	void helper_haddpd(XMMReg d, XMMReg s)
870	664e0f19	bellard	{
871	664e0f19	bellard	XMMReg r;
872	664e0f19	bellard	r.XMM_D(0) = d->XMM_D(0) + d->XMM_D(1);
873	664e0f19	bellard	r.XMM_D(1) = s->XMM_D(0) + s->XMM_D(1);
874	664e0f19	bellard	*d = r;
875	664e0f19	bellard	}
876	664e0f19	bellard
877	5af45186	bellard	void helper_hsubps(XMMReg d, XMMReg s)
878	664e0f19	bellard	{
879	664e0f19	bellard	XMMReg r;
880	664e0f19	bellard	r.XMM_S(0) = d->XMM_S(0) - d->XMM_S(1);
881	664e0f19	bellard	r.XMM_S(1) = d->XMM_S(2) - d->XMM_S(3);
882	664e0f19	bellard	r.XMM_S(2) = s->XMM_S(0) - s->XMM_S(1);
883	664e0f19	bellard	r.XMM_S(3) = s->XMM_S(2) - s->XMM_S(3);
884	664e0f19	bellard	*d = r;
885	664e0f19	bellard	}
886	664e0f19	bellard
887	5af45186	bellard	void helper_hsubpd(XMMReg d, XMMReg s)
888	664e0f19	bellard	{
889	664e0f19	bellard	XMMReg r;
890	664e0f19	bellard	r.XMM_D(0) = d->XMM_D(0) - d->XMM_D(1);
891	664e0f19	bellard	r.XMM_D(1) = s->XMM_D(0) - s->XMM_D(1);
892	664e0f19	bellard	*d = r;
893	664e0f19	bellard	}
894	664e0f19	bellard
895	5af45186	bellard	void helper_addsubps(XMMReg d, XMMReg s)
896	664e0f19	bellard	{
897	664e0f19	bellard	d->XMM_S(0) = d->XMM_S(0) - s->XMM_S(0);
898	664e0f19	bellard	d->XMM_S(1) = d->XMM_S(1) + s->XMM_S(1);
899	664e0f19	bellard	d->XMM_S(2) = d->XMM_S(2) - s->XMM_S(2);
900	664e0f19	bellard	d->XMM_S(3) = d->XMM_S(3) + s->XMM_S(3);
901	664e0f19	bellard	}
902	664e0f19	bellard
903	5af45186	bellard	void helper_addsubpd(XMMReg d, XMMReg s)
904	664e0f19	bellard	{
905	664e0f19	bellard	d->XMM_D(0) = d->XMM_D(0) - s->XMM_D(0);
906	664e0f19	bellard	d->XMM_D(1) = d->XMM_D(1) + s->XMM_D(1);
907	664e0f19	bellard	}
908	664e0f19	bellard
909	664e0f19	bellard	/* XXX: unordered */
910	5af45186	bellard	#define SSE_HELPER_CMP(name, F)\
911	5af45186	bellard	void helper_ ## name ## ps (Reg d, Reg s)\
912	664e0f19	bellard	{\
913	8422b113	bellard	d->XMM_L(0) = F(32, d->XMM_S(0), s->XMM_S(0));\
914	8422b113	bellard	d->XMM_L(1) = F(32, d->XMM_S(1), s->XMM_S(1));\
915	8422b113	bellard	d->XMM_L(2) = F(32, d->XMM_S(2), s->XMM_S(2));\
916	8422b113	bellard	d->XMM_L(3) = F(32, d->XMM_S(3), s->XMM_S(3));\
917	664e0f19	bellard	}\
918	664e0f19	bellard	\
919	5af45186	bellard	void helper_ ## name ## ss (Reg d, Reg s)\
920	664e0f19	bellard	{\
921	8422b113	bellard	d->XMM_L(0) = F(32, d->XMM_S(0), s->XMM_S(0));\
922	664e0f19	bellard	}\
923	5af45186	bellard	void helper_ ## name ## pd (Reg d, Reg s)\
924	664e0f19	bellard	{\
925	8422b113	bellard	d->XMM_Q(0) = F(64, d->XMM_D(0), s->XMM_D(0));\
926	8422b113	bellard	d->XMM_Q(1) = F(64, d->XMM_D(1), s->XMM_D(1));\
927	664e0f19	bellard	}\
928	664e0f19	bellard	\
929	5af45186	bellard	void helper_ ## name ## sd (Reg d, Reg s)\
930	664e0f19	bellard	{\
931	8422b113	bellard	d->XMM_Q(0) = F(64, d->XMM_D(0), s->XMM_D(0));\
932	664e0f19	bellard	}
933	664e0f19	bellard
934	211315fb	Aurelien Jarno	#define FPU_CMPEQ(size, a, b) float ## size ## _eq_quiet(a, b, &env->sse_status) ? -1 : 0
935	8422b113	bellard	#define FPU_CMPLT(size, a, b) float ## size ## _lt(a, b, &env->sse_status) ? -1 : 0
936	8422b113	bellard	#define FPU_CMPLE(size, a, b) float ## size ## _le(a, b, &env->sse_status) ? -1 : 0
937	e0b29ce1	Aurelien Jarno	#define FPU_CMPUNORD(size, a, b) float ## size ## _unordered_quiet(a, b, &env->sse_status) ? - 1 : 0
938	211315fb	Aurelien Jarno	#define FPU_CMPNEQ(size, a, b) float ## size ## _eq_quiet(a, b, &env->sse_status) ? 0 : -1
939	8422b113	bellard	#define FPU_CMPNLT(size, a, b) float ## size ## _lt(a, b, &env->sse_status) ? 0 : -1
940	8422b113	bellard	#define FPU_CMPNLE(size, a, b) float ## size ## _le(a, b, &env->sse_status) ? 0 : -1
941	e0b29ce1	Aurelien Jarno	#define FPU_CMPORD(size, a, b) float ## size ## _unordered_quiet(a, b, &env->sse_status) ? 0 : -1
942	664e0f19	bellard
943	5af45186	bellard	SSE_HELPER_CMP(cmpeq, FPU_CMPEQ)
944	5af45186	bellard	SSE_HELPER_CMP(cmplt, FPU_CMPLT)
945	5af45186	bellard	SSE_HELPER_CMP(cmple, FPU_CMPLE)
946	5af45186	bellard	SSE_HELPER_CMP(cmpunord, FPU_CMPUNORD)
947	5af45186	bellard	SSE_HELPER_CMP(cmpneq, FPU_CMPNEQ)
948	5af45186	bellard	SSE_HELPER_CMP(cmpnlt, FPU_CMPNLT)
949	5af45186	bellard	SSE_HELPER_CMP(cmpnle, FPU_CMPNLE)
950	5af45186	bellard	SSE_HELPER_CMP(cmpord, FPU_CMPORD)
951	664e0f19	bellard
952	1e6eec8b	Blue Swirl	static const int comis_eflags[4] = {CC_C, CC_Z, 0, CC_Z \| CC_P \| CC_C};
953	43fb823b	bellard
954	5af45186	bellard	void helper_ucomiss(Reg d, Reg s)
955	664e0f19	bellard	{
956	43fb823b	bellard	int ret;
957	8422b113	bellard	float32 s0, s1;
958	664e0f19	bellard
959	664e0f19	bellard	s0 = d->XMM_S(0);
960	664e0f19	bellard	s1 = s->XMM_S(0);
961	43fb823b	bellard	ret = float32_compare_quiet(s0, s1, &env->sse_status);
962	43fb823b	bellard	CC_SRC = comis_eflags[ret + 1];
963	664e0f19	bellard	}
964	664e0f19	bellard
965	5af45186	bellard	void helper_comiss(Reg d, Reg s)
966	664e0f19	bellard	{
967	43fb823b	bellard	int ret;
968	8422b113	bellard	float32 s0, s1;
969	664e0f19	bellard
970	664e0f19	bellard	s0 = d->XMM_S(0);
971	664e0f19	bellard	s1 = s->XMM_S(0);
972	43fb823b	bellard	ret = float32_compare(s0, s1, &env->sse_status);
973	43fb823b	bellard	CC_SRC = comis_eflags[ret + 1];
974	664e0f19	bellard	}
975	664e0f19	bellard
976	5af45186	bellard	void helper_ucomisd(Reg d, Reg s)
977	664e0f19	bellard	{
978	43fb823b	bellard	int ret;
979	8422b113	bellard	float64 d0, d1;
980	664e0f19	bellard
981	664e0f19	bellard	d0 = d->XMM_D(0);
982	664e0f19	bellard	d1 = s->XMM_D(0);
983	43fb823b	bellard	ret = float64_compare_quiet(d0, d1, &env->sse_status);
984	43fb823b	bellard	CC_SRC = comis_eflags[ret + 1];
985	664e0f19	bellard	}
986	664e0f19	bellard
987	5af45186	bellard	void helper_comisd(Reg d, Reg s)
988	664e0f19	bellard	{
989	43fb823b	bellard	int ret;
990	8422b113	bellard	float64 d0, d1;
991	664e0f19	bellard
992	664e0f19	bellard	d0 = d->XMM_D(0);
993	664e0f19	bellard	d1 = s->XMM_D(0);
994	43fb823b	bellard	ret = float64_compare(d0, d1, &env->sse_status);
995	43fb823b	bellard	CC_SRC = comis_eflags[ret + 1];
996	664e0f19	bellard	}
997	664e0f19	bellard
998	5af45186	bellard	uint32_t helper_movmskps(Reg *s)
999	664e0f19	bellard	{
1000	664e0f19	bellard	int b0, b1, b2, b3;
1001	664e0f19	bellard	b0 = s->XMM_L(0) >> 31;
1002	664e0f19	bellard	b1 = s->XMM_L(1) >> 31;
1003	664e0f19	bellard	b2 = s->XMM_L(2) >> 31;
1004	664e0f19	bellard	b3 = s->XMM_L(3) >> 31;
1005	5af45186	bellard	return b0 \| (b1 << 1) \| (b2 << 2) \| (b3 << 3);
1006	664e0f19	bellard	}
1007	664e0f19	bellard
1008	5af45186	bellard	uint32_t helper_movmskpd(Reg *s)
1009	664e0f19	bellard	{
1010	664e0f19	bellard	int b0, b1;
1011	664e0f19	bellard	b0 = s->XMM_L(1) >> 31;
1012	664e0f19	bellard	b1 = s->XMM_L(3) >> 31;
1013	5af45186	bellard	return b0 \| (b1 << 1);
1014	664e0f19	bellard	}
1015	664e0f19	bellard
1016	664e0f19	bellard	#endif
1017	664e0f19	bellard
1018	5af45186	bellard	uint32_t glue(helper_pmovmskb, SUFFIX)(Reg *s)
1019	5af45186	bellard	{
1020	5af45186	bellard	uint32_t val;
1021	5af45186	bellard	val = 0;
1022	30913bae	aurel32	val \|= (s->B(0) >> 7);
1023	30913bae	aurel32	val \|= (s->B(1) >> 6) & 0x02;
1024	30913bae	aurel32	val \|= (s->B(2) >> 5) & 0x04;
1025	30913bae	aurel32	val \|= (s->B(3) >> 4) & 0x08;
1026	30913bae	aurel32	val \|= (s->B(4) >> 3) & 0x10;
1027	30913bae	aurel32	val \|= (s->B(5) >> 2) & 0x20;
1028	30913bae	aurel32	val \|= (s->B(6) >> 1) & 0x40;
1029	30913bae	aurel32	val \|= (s->B(7)) & 0x80;
1030	664e0f19	bellard	#if SHIFT == 1
1031	30913bae	aurel32	val \|= (s->B(8) << 1) & 0x0100;
1032	30913bae	aurel32	val \|= (s->B(9) << 2) & 0x0200;
1033	30913bae	aurel32	val \|= (s->B(10) << 3) & 0x0400;
1034	30913bae	aurel32	val \|= (s->B(11) << 4) & 0x0800;
1035	30913bae	aurel32	val \|= (s->B(12) << 5) & 0x1000;
1036	30913bae	aurel32	val \|= (s->B(13) << 6) & 0x2000;
1037	30913bae	aurel32	val \|= (s->B(14) << 7) & 0x4000;
1038	30913bae	aurel32	val \|= (s->B(15) << 8) & 0x8000;
1039	664e0f19	bellard	#endif
1040	5af45186	bellard	return val;
1041	664e0f19	bellard	}
1042	664e0f19	bellard
1043	5af45186	bellard	void glue(helper_packsswb, SUFFIX) (Reg d, Reg s)
1044	664e0f19	bellard	{
1045	5af45186	bellard	Reg r;
1046	664e0f19	bellard
1047	664e0f19	bellard	r.B(0) = satsb((int16_t)d->W(0));
1048	664e0f19	bellard	r.B(1) = satsb((int16_t)d->W(1));
1049	664e0f19	bellard	r.B(2) = satsb((int16_t)d->W(2));
1050	664e0f19	bellard	r.B(3) = satsb((int16_t)d->W(3));
1051	664e0f19	bellard	#if SHIFT == 1
1052	664e0f19	bellard	r.B(4) = satsb((int16_t)d->W(4));
1053	664e0f19	bellard	r.B(5) = satsb((int16_t)d->W(5));
1054	664e0f19	bellard	r.B(6) = satsb((int16_t)d->W(6));
1055	664e0f19	bellard	r.B(7) = satsb((int16_t)d->W(7));
1056	664e0f19	bellard	#endif
1057	664e0f19	bellard	r.B((4 << SHIFT) + 0) = satsb((int16_t)s->W(0));
1058	664e0f19	bellard	r.B((4 << SHIFT) + 1) = satsb((int16_t)s->W(1));
1059	664e0f19	bellard	r.B((4 << SHIFT) + 2) = satsb((int16_t)s->W(2));
1060	664e0f19	bellard	r.B((4 << SHIFT) + 3) = satsb((int16_t)s->W(3));
1061	664e0f19	bellard	#if SHIFT == 1
1062	664e0f19	bellard	r.B(12) = satsb((int16_t)s->W(4));
1063	664e0f19	bellard	r.B(13) = satsb((int16_t)s->W(5));
1064	664e0f19	bellard	r.B(14) = satsb((int16_t)s->W(6));
1065	664e0f19	bellard	r.B(15) = satsb((int16_t)s->W(7));
1066	664e0f19	bellard	#endif
1067	664e0f19	bellard	*d = r;
1068	664e0f19	bellard	}
1069	664e0f19	bellard
1070	5af45186	bellard	void glue(helper_packuswb, SUFFIX) (Reg d, Reg s)
1071	664e0f19	bellard	{
1072	5af45186	bellard	Reg r;
1073	664e0f19	bellard
1074	664e0f19	bellard	r.B(0) = satub((int16_t)d->W(0));
1075	664e0f19	bellard	r.B(1) = satub((int16_t)d->W(1));
1076	664e0f19	bellard	r.B(2) = satub((int16_t)d->W(2));
1077	664e0f19	bellard	r.B(3) = satub((int16_t)d->W(3));
1078	664e0f19	bellard	#if SHIFT == 1
1079	664e0f19	bellard	r.B(4) = satub((int16_t)d->W(4));
1080	664e0f19	bellard	r.B(5) = satub((int16_t)d->W(5));
1081	664e0f19	bellard	r.B(6) = satub((int16_t)d->W(6));
1082	664e0f19	bellard	r.B(7) = satub((int16_t)d->W(7));
1083	664e0f19	bellard	#endif
1084	664e0f19	bellard	r.B((4 << SHIFT) + 0) = satub((int16_t)s->W(0));
1085	664e0f19	bellard	r.B((4 << SHIFT) + 1) = satub((int16_t)s->W(1));
1086	664e0f19	bellard	r.B((4 << SHIFT) + 2) = satub((int16_t)s->W(2));
1087	664e0f19	bellard	r.B((4 << SHIFT) + 3) = satub((int16_t)s->W(3));
1088	664e0f19	bellard	#if SHIFT == 1
1089	664e0f19	bellard	r.B(12) = satub((int16_t)s->W(4));
1090	664e0f19	bellard	r.B(13) = satub((int16_t)s->W(5));
1091	664e0f19	bellard	r.B(14) = satub((int16_t)s->W(6));
1092	664e0f19	bellard	r.B(15) = satub((int16_t)s->W(7));
1093	664e0f19	bellard	#endif
1094	664e0f19	bellard	*d = r;
1095	664e0f19	bellard	}
1096	664e0f19	bellard
1097	5af45186	bellard	void glue(helper_packssdw, SUFFIX) (Reg d, Reg s)
1098	664e0f19	bellard	{
1099	5af45186	bellard	Reg r;
1100	664e0f19	bellard
1101	664e0f19	bellard	r.W(0) = satsw(d->L(0));
1102	664e0f19	bellard	r.W(1) = satsw(d->L(1));
1103	664e0f19	bellard	#if SHIFT == 1
1104	664e0f19	bellard	r.W(2) = satsw(d->L(2));
1105	664e0f19	bellard	r.W(3) = satsw(d->L(3));
1106	664e0f19	bellard	#endif
1107	664e0f19	bellard	r.W((2 << SHIFT) + 0) = satsw(s->L(0));
1108	664e0f19	bellard	r.W((2 << SHIFT) + 1) = satsw(s->L(1));
1109	664e0f19	bellard	#if SHIFT == 1
1110	664e0f19	bellard	r.W(6) = satsw(s->L(2));
1111	664e0f19	bellard	r.W(7) = satsw(s->L(3));
1112	664e0f19	bellard	#endif
1113	664e0f19	bellard	*d = r;
1114	664e0f19	bellard	}
1115	664e0f19	bellard
1116	664e0f19	bellard	#define UNPCK_OP(base_name, base) \
1117	664e0f19	bellard	\
1118	5af45186	bellard	void glue(helper_punpck ## base_name ## bw, SUFFIX) (Reg d, Reg s) \
1119	664e0f19	bellard	{ \
1120	5af45186	bellard	Reg r; \
1121	664e0f19	bellard	\
1122	664e0f19	bellard	r.B(0) = d->B((base << (SHIFT + 2)) + 0); \
1123	664e0f19	bellard	r.B(1) = s->B((base << (SHIFT + 2)) + 0); \
1124	664e0f19	bellard	r.B(2) = d->B((base << (SHIFT + 2)) + 1); \
1125	664e0f19	bellard	r.B(3) = s->B((base << (SHIFT + 2)) + 1); \
1126	664e0f19	bellard	r.B(4) = d->B((base << (SHIFT + 2)) + 2); \
1127	664e0f19	bellard	r.B(5) = s->B((base << (SHIFT + 2)) + 2); \
1128	664e0f19	bellard	r.B(6) = d->B((base << (SHIFT + 2)) + 3); \
1129	664e0f19	bellard	r.B(7) = s->B((base << (SHIFT + 2)) + 3); \
1130	664e0f19	bellard	XMM_ONLY( \
1131	664e0f19	bellard	r.B(8) = d->B((base << (SHIFT + 2)) + 4); \
1132	664e0f19	bellard	r.B(9) = s->B((base << (SHIFT + 2)) + 4); \
1133	664e0f19	bellard	r.B(10) = d->B((base << (SHIFT + 2)) + 5); \
1134	664e0f19	bellard	r.B(11) = s->B((base << (SHIFT + 2)) + 5); \
1135	664e0f19	bellard	r.B(12) = d->B((base << (SHIFT + 2)) + 6); \
1136	664e0f19	bellard	r.B(13) = s->B((base << (SHIFT + 2)) + 6); \
1137	664e0f19	bellard	r.B(14) = d->B((base << (SHIFT + 2)) + 7); \
1138	664e0f19	bellard	r.B(15) = s->B((base << (SHIFT + 2)) + 7); \
1139	664e0f19	bellard	) \
1140	664e0f19	bellard	*d = r; \
1141	664e0f19	bellard	} \
1142	664e0f19	bellard	\
1143	5af45186	bellard	void glue(helper_punpck ## base_name ## wd, SUFFIX) (Reg d, Reg s) \
1144	664e0f19	bellard	{ \
1145	5af45186	bellard	Reg r; \
1146	664e0f19	bellard	\
1147	664e0f19	bellard	r.W(0) = d->W((base << (SHIFT + 1)) + 0); \
1148	664e0f19	bellard	r.W(1) = s->W((base << (SHIFT + 1)) + 0); \
1149	664e0f19	bellard	r.W(2) = d->W((base << (SHIFT + 1)) + 1); \
1150	664e0f19	bellard	r.W(3) = s->W((base << (SHIFT + 1)) + 1); \
1151	664e0f19	bellard	XMM_ONLY( \
1152	664e0f19	bellard	r.W(4) = d->W((base << (SHIFT + 1)) + 2); \
1153	664e0f19	bellard	r.W(5) = s->W((base << (SHIFT + 1)) + 2); \
1154	664e0f19	bellard	r.W(6) = d->W((base << (SHIFT + 1)) + 3); \
1155	664e0f19	bellard	r.W(7) = s->W((base << (SHIFT + 1)) + 3); \
1156	664e0f19	bellard	) \
1157	664e0f19	bellard	*d = r; \
1158	664e0f19	bellard	} \
1159	664e0f19	bellard	\
1160	5af45186	bellard	void glue(helper_punpck ## base_name ## dq, SUFFIX) (Reg d, Reg s) \
1161	664e0f19	bellard	{ \
1162	5af45186	bellard	Reg r; \
1163	664e0f19	bellard	\
1164	664e0f19	bellard	r.L(0) = d->L((base << SHIFT) + 0); \
1165	664e0f19	bellard	r.L(1) = s->L((base << SHIFT) + 0); \
1166	664e0f19	bellard	XMM_ONLY( \
1167	664e0f19	bellard	r.L(2) = d->L((base << SHIFT) + 1); \
1168	664e0f19	bellard	r.L(3) = s->L((base << SHIFT) + 1); \
1169	664e0f19	bellard	) \
1170	664e0f19	bellard	*d = r; \
1171	664e0f19	bellard	} \
1172	664e0f19	bellard	\
1173	664e0f19	bellard	XMM_ONLY( \
1174	5af45186	bellard	void glue(helper_punpck ## base_name ## qdq, SUFFIX) (Reg d, Reg s) \
1175	664e0f19	bellard	{ \
1176	5af45186	bellard	Reg r; \
1177	664e0f19	bellard	\
1178	664e0f19	bellard	r.Q(0) = d->Q(base); \
1179	664e0f19	bellard	r.Q(1) = s->Q(base); \
1180	664e0f19	bellard	*d = r; \
1181	664e0f19	bellard	} \
1182	664e0f19	bellard	)
1183	664e0f19	bellard
1184	664e0f19	bellard	UNPCK_OP(l, 0)
1185	664e0f19	bellard	UNPCK_OP(h, 1)
1186	664e0f19	bellard
1187	a35f3ec7	aurel32	/* 3DNow! float ops */
1188	a35f3ec7	aurel32	#if SHIFT == 0
1189	5af45186	bellard	void helper_pi2fd(MMXReg d, MMXReg s)
1190	a35f3ec7	aurel32	{
1191	a35f3ec7	aurel32	d->MMX_S(0) = int32_to_float32(s->MMX_L(0), &env->mmx_status);
1192	a35f3ec7	aurel32	d->MMX_S(1) = int32_to_float32(s->MMX_L(1), &env->mmx_status);
1193	a35f3ec7	aurel32	}
1194	a35f3ec7	aurel32
1195	5af45186	bellard	void helper_pi2fw(MMXReg d, MMXReg s)
1196	a35f3ec7	aurel32	{
1197	a35f3ec7	aurel32	d->MMX_S(0) = int32_to_float32((int16_t)s->MMX_W(0), &env->mmx_status);
1198	a35f3ec7	aurel32	d->MMX_S(1) = int32_to_float32((int16_t)s->MMX_W(2), &env->mmx_status);
1199	a35f3ec7	aurel32	}
1200	a35f3ec7	aurel32
1201	5af45186	bellard	void helper_pf2id(MMXReg d, MMXReg s)
1202	a35f3ec7	aurel32	{
1203	a35f3ec7	aurel32	d->MMX_L(0) = float32_to_int32_round_to_zero(s->MMX_S(0), &env->mmx_status);
1204	a35f3ec7	aurel32	d->MMX_L(1) = float32_to_int32_round_to_zero(s->MMX_S(1), &env->mmx_status);
1205	a35f3ec7	aurel32	}
1206	a35f3ec7	aurel32
1207	5af45186	bellard	void helper_pf2iw(MMXReg d, MMXReg s)
1208	a35f3ec7	aurel32	{
1209	a35f3ec7	aurel32	d->MMX_L(0) = satsw(float32_to_int32_round_to_zero(s->MMX_S(0), &env->mmx_status));
1210	a35f3ec7	aurel32	d->MMX_L(1) = satsw(float32_to_int32_round_to_zero(s->MMX_S(1), &env->mmx_status));
1211	a35f3ec7	aurel32	}
1212	a35f3ec7	aurel32
1213	5af45186	bellard	void helper_pfacc(MMXReg d, MMXReg s)
1214	a35f3ec7	aurel32	{
1215	a35f3ec7	aurel32	MMXReg r;
1216	a35f3ec7	aurel32	r.MMX_S(0) = float32_add(d->MMX_S(0), d->MMX_S(1), &env->mmx_status);
1217	a35f3ec7	aurel32	r.MMX_S(1) = float32_add(s->MMX_S(0), s->MMX_S(1), &env->mmx_status);
1218	a35f3ec7	aurel32	*d = r;
1219	a35f3ec7	aurel32	}
1220	a35f3ec7	aurel32
1221	5af45186	bellard	void helper_pfadd(MMXReg d, MMXReg s)
1222	a35f3ec7	aurel32	{
1223	a35f3ec7	aurel32	d->MMX_S(0) = float32_add(d->MMX_S(0), s->MMX_S(0), &env->mmx_status);
1224	a35f3ec7	aurel32	d->MMX_S(1) = float32_add(d->MMX_S(1), s->MMX_S(1), &env->mmx_status);
1225	a35f3ec7	aurel32	}
1226	a35f3ec7	aurel32
1227	5af45186	bellard	void helper_pfcmpeq(MMXReg d, MMXReg s)
1228	a35f3ec7	aurel32	{
1229	211315fb	Aurelien Jarno	d->MMX_L(0) = float32_eq_quiet(d->MMX_S(0), s->MMX_S(0), &env->mmx_status) ? -1 : 0;
1230	211315fb	Aurelien Jarno	d->MMX_L(1) = float32_eq_quiet(d->MMX_S(1), s->MMX_S(1), &env->mmx_status) ? -1 : 0;
1231	a35f3ec7	aurel32	}
1232	a35f3ec7	aurel32
1233	5af45186	bellard	void helper_pfcmpge(MMXReg d, MMXReg s)
1234	a35f3ec7	aurel32	{
1235	a35f3ec7	aurel32	d->MMX_L(0) = float32_le(s->MMX_S(0), d->MMX_S(0), &env->mmx_status) ? -1 : 0;
1236	a35f3ec7	aurel32	d->MMX_L(1) = float32_le(s->MMX_S(1), d->MMX_S(1), &env->mmx_status) ? -1 : 0;
1237	a35f3ec7	aurel32	}
1238	a35f3ec7	aurel32
1239	5af45186	bellard	void helper_pfcmpgt(MMXReg d, MMXReg s)
1240	a35f3ec7	aurel32	{
1241	a35f3ec7	aurel32	d->MMX_L(0) = float32_lt(s->MMX_S(0), d->MMX_S(0), &env->mmx_status) ? -1 : 0;
1242	a35f3ec7	aurel32	d->MMX_L(1) = float32_lt(s->MMX_S(1), d->MMX_S(1), &env->mmx_status) ? -1 : 0;
1243	a35f3ec7	aurel32	}
1244	a35f3ec7	aurel32
1245	5af45186	bellard	void helper_pfmax(MMXReg d, MMXReg s)
1246	a35f3ec7	aurel32	{
1247	a35f3ec7	aurel32	if (float32_lt(d->MMX_S(0), s->MMX_S(0), &env->mmx_status))
1248	a35f3ec7	aurel32	d->MMX_S(0) = s->MMX_S(0);
1249	a35f3ec7	aurel32	if (float32_lt(d->MMX_S(1), s->MMX_S(1), &env->mmx_status))
1250	a35f3ec7	aurel32	d->MMX_S(1) = s->MMX_S(1);
1251	a35f3ec7	aurel32	}
1252	a35f3ec7	aurel32
1253	5af45186	bellard	void helper_pfmin(MMXReg d, MMXReg s)
1254	a35f3ec7	aurel32	{
1255	a35f3ec7	aurel32	if (float32_lt(s->MMX_S(0), d->MMX_S(0), &env->mmx_status))
1256	a35f3ec7	aurel32	d->MMX_S(0) = s->MMX_S(0);
1257	a35f3ec7	aurel32	if (float32_lt(s->MMX_S(1), d->MMX_S(1), &env->mmx_status))
1258	a35f3ec7	aurel32	d->MMX_S(1) = s->MMX_S(1);
1259	a35f3ec7	aurel32	}
1260	a35f3ec7	aurel32
1261	5af45186	bellard	void helper_pfmul(MMXReg d, MMXReg s)
1262	a35f3ec7	aurel32	{
1263	a35f3ec7	aurel32	d->MMX_S(0) = float32_mul(d->MMX_S(0), s->MMX_S(0), &env->mmx_status);
1264	a35f3ec7	aurel32	d->MMX_S(1) = float32_mul(d->MMX_S(1), s->MMX_S(1), &env->mmx_status);
1265	a35f3ec7	aurel32	}
1266	a35f3ec7	aurel32
1267	5af45186	bellard	void helper_pfnacc(MMXReg d, MMXReg s)
1268	a35f3ec7	aurel32	{
1269	a35f3ec7	aurel32	MMXReg r;
1270	a35f3ec7	aurel32	r.MMX_S(0) = float32_sub(d->MMX_S(0), d->MMX_S(1), &env->mmx_status);
1271	a35f3ec7	aurel32	r.MMX_S(1) = float32_sub(s->MMX_S(0), s->MMX_S(1), &env->mmx_status);
1272	a35f3ec7	aurel32	*d = r;
1273	a35f3ec7	aurel32	}
1274	a35f3ec7	aurel32
1275	5af45186	bellard	void helper_pfpnacc(MMXReg d, MMXReg s)
1276	a35f3ec7	aurel32	{
1277	a35f3ec7	aurel32	MMXReg r;
1278	a35f3ec7	aurel32	r.MMX_S(0) = float32_sub(d->MMX_S(0), d->MMX_S(1), &env->mmx_status);
1279	a35f3ec7	aurel32	r.MMX_S(1) = float32_add(s->MMX_S(0), s->MMX_S(1), &env->mmx_status);
1280	a35f3ec7	aurel32	*d = r;
1281	a35f3ec7	aurel32	}
1282	a35f3ec7	aurel32
1283	5af45186	bellard	void helper_pfrcp(MMXReg d, MMXReg s)
1284	a35f3ec7	aurel32	{
1285	c2ef9a83	Aurelien Jarno	d->MMX_S(0) = float32_div(float32_one, s->MMX_S(0), &env->mmx_status);
1286	a35f3ec7	aurel32	d->MMX_S(1) = d->MMX_S(0);
1287	a35f3ec7	aurel32	}
1288	a35f3ec7	aurel32
1289	5af45186	bellard	void helper_pfrsqrt(MMXReg d, MMXReg s)
1290	a35f3ec7	aurel32	{
1291	a35f3ec7	aurel32	d->MMX_L(1) = s->MMX_L(0) & 0x7fffffff;
1292	c2ef9a83	Aurelien Jarno	d->MMX_S(1) = float32_div(float32_one,
1293	c2ef9a83	Aurelien Jarno	float32_sqrt(d->MMX_S(1), &env->mmx_status),
1294	c2ef9a83	Aurelien Jarno	&env->mmx_status);
1295	a35f3ec7	aurel32	d->MMX_L(1) \|= s->MMX_L(0) & 0x80000000;
1296	a35f3ec7	aurel32	d->MMX_L(0) = d->MMX_L(1);
1297	a35f3ec7	aurel32	}
1298	a35f3ec7	aurel32
1299	5af45186	bellard	void helper_pfsub(MMXReg d, MMXReg s)
1300	a35f3ec7	aurel32	{
1301	a35f3ec7	aurel32	d->MMX_S(0) = float32_sub(d->MMX_S(0), s->MMX_S(0), &env->mmx_status);
1302	a35f3ec7	aurel32	d->MMX_S(1) = float32_sub(d->MMX_S(1), s->MMX_S(1), &env->mmx_status);
1303	a35f3ec7	aurel32	}
1304	a35f3ec7	aurel32
1305	5af45186	bellard	void helper_pfsubr(MMXReg d, MMXReg s)
1306	a35f3ec7	aurel32	{
1307	a35f3ec7	aurel32	d->MMX_S(0) = float32_sub(s->MMX_S(0), d->MMX_S(0), &env->mmx_status);
1308	a35f3ec7	aurel32	d->MMX_S(1) = float32_sub(s->MMX_S(1), d->MMX_S(1), &env->mmx_status);
1309	a35f3ec7	aurel32	}
1310	a35f3ec7	aurel32
1311	5af45186	bellard	void helper_pswapd(MMXReg d, MMXReg s)
1312	a35f3ec7	aurel32	{
1313	a35f3ec7	aurel32	MMXReg r;
1314	a35f3ec7	aurel32	r.MMX_L(0) = s->MMX_L(1);
1315	a35f3ec7	aurel32	r.MMX_L(1) = s->MMX_L(0);
1316	a35f3ec7	aurel32	*d = r;
1317	a35f3ec7	aurel32	}
1318	a35f3ec7	aurel32	#endif
1319	a35f3ec7	aurel32
1320	4242b1bd	balrog	/* SSSE3 op helpers */
1321	4242b1bd	balrog	void glue(helper_pshufb, SUFFIX) (Reg d, Reg s)
1322	4242b1bd	balrog	{
1323	4242b1bd	balrog	int i;
1324	4242b1bd	balrog	Reg r;
1325	4242b1bd	balrog
1326	4242b1bd	balrog	for (i = 0; i < (8 << SHIFT); i++)
1327	4242b1bd	balrog	r.B(i) = (s->B(i) & 0x80) ? 0 : (d->B(s->B(i) & ((8 << SHIFT) - 1)));
1328	4242b1bd	balrog
1329	4242b1bd	balrog	*d = r;
1330	4242b1bd	balrog	}
1331	4242b1bd	balrog
1332	4242b1bd	balrog	void glue(helper_phaddw, SUFFIX) (Reg d, Reg s)
1333	4242b1bd	balrog	{
1334	4242b1bd	balrog	d->W(0) = (int16_t)d->W(0) + (int16_t)d->W(1);
1335	4242b1bd	balrog	d->W(1) = (int16_t)d->W(2) + (int16_t)d->W(3);
1336	4242b1bd	balrog	XMM_ONLY(d->W(2) = (int16_t)d->W(4) + (int16_t)d->W(5));
1337	4242b1bd	balrog	XMM_ONLY(d->W(3) = (int16_t)d->W(6) + (int16_t)d->W(7));
1338	4242b1bd	balrog	d->W((2 << SHIFT) + 0) = (int16_t)s->W(0) + (int16_t)s->W(1);
1339	4242b1bd	balrog	d->W((2 << SHIFT) + 1) = (int16_t)s->W(2) + (int16_t)s->W(3);
1340	4242b1bd	balrog	XMM_ONLY(d->W(6) = (int16_t)s->W(4) + (int16_t)s->W(5));
1341	4242b1bd	balrog	XMM_ONLY(d->W(7) = (int16_t)s->W(6) + (int16_t)s->W(7));
1342	4242b1bd	balrog	}
1343	4242b1bd	balrog
1344	4242b1bd	balrog	void glue(helper_phaddd, SUFFIX) (Reg d, Reg s)
1345	4242b1bd	balrog	{
1346	4242b1bd	balrog	d->L(0) = (int32_t)d->L(0) + (int32_t)d->L(1);
1347	4242b1bd	balrog	XMM_ONLY(d->L(1) = (int32_t)d->L(2) + (int32_t)d->L(3));
1348	4242b1bd	balrog	d->L((1 << SHIFT) + 0) = (int32_t)s->L(0) + (int32_t)s->L(1);
1349	4242b1bd	balrog	XMM_ONLY(d->L(3) = (int32_t)s->L(2) + (int32_t)s->L(3));
1350	4242b1bd	balrog	}
1351	4242b1bd	balrog
1352	4242b1bd	balrog	void glue(helper_phaddsw, SUFFIX) (Reg d, Reg s)
1353	4242b1bd	balrog	{
1354	4242b1bd	balrog	d->W(0) = satsw((int16_t)d->W(0) + (int16_t)d->W(1));
1355	4242b1bd	balrog	d->W(1) = satsw((int16_t)d->W(2) + (int16_t)d->W(3));
1356	4242b1bd	balrog	XMM_ONLY(d->W(2) = satsw((int16_t)d->W(4) + (int16_t)d->W(5)));
1357	4242b1bd	balrog	XMM_ONLY(d->W(3) = satsw((int16_t)d->W(6) + (int16_t)d->W(7)));
1358	4242b1bd	balrog	d->W((2 << SHIFT) + 0) = satsw((int16_t)s->W(0) + (int16_t)s->W(1));
1359	4242b1bd	balrog	d->W((2 << SHIFT) + 1) = satsw((int16_t)s->W(2) + (int16_t)s->W(3));
1360	4242b1bd	balrog	XMM_ONLY(d->W(6) = satsw((int16_t)s->W(4) + (int16_t)s->W(5)));
1361	4242b1bd	balrog	XMM_ONLY(d->W(7) = satsw((int16_t)s->W(6) + (int16_t)s->W(7)));
1362	4242b1bd	balrog	}
1363	4242b1bd	balrog
1364	4242b1bd	balrog	void glue(helper_pmaddubsw, SUFFIX) (Reg d, Reg s)
1365	4242b1bd	balrog	{
1366	4242b1bd	balrog	d->W(0) = satsw((int8_t)s->B( 0) * (uint8_t)d->B( 0) +
1367	4242b1bd	balrog	(int8_t)s->B( 1) * (uint8_t)d->B( 1));
1368	4242b1bd	balrog	d->W(1) = satsw((int8_t)s->B( 2) * (uint8_t)d->B( 2) +
1369	4242b1bd	balrog	(int8_t)s->B( 3) * (uint8_t)d->B( 3));
1370	4242b1bd	balrog	d->W(2) = satsw((int8_t)s->B( 4) * (uint8_t)d->B( 4) +
1371	4242b1bd	balrog	(int8_t)s->B( 5) * (uint8_t)d->B( 5));
1372	4242b1bd	balrog	d->W(3) = satsw((int8_t)s->B( 6) * (uint8_t)d->B( 6) +
1373	4242b1bd	balrog	(int8_t)s->B( 7) * (uint8_t)d->B( 7));
1374	4242b1bd	balrog	#if SHIFT == 1
1375	4242b1bd	balrog	d->W(4) = satsw((int8_t)s->B( 8) * (uint8_t)d->B( 8) +
1376	4242b1bd	balrog	(int8_t)s->B( 9) * (uint8_t)d->B( 9));
1377	4242b1bd	balrog	d->W(5) = satsw((int8_t)s->B(10) * (uint8_t)d->B(10) +
1378	4242b1bd	balrog	(int8_t)s->B(11) * (uint8_t)d->B(11));
1379	4242b1bd	balrog	d->W(6) = satsw((int8_t)s->B(12) * (uint8_t)d->B(12) +
1380	4242b1bd	balrog	(int8_t)s->B(13) * (uint8_t)d->B(13));
1381	4242b1bd	balrog	d->W(7) = satsw((int8_t)s->B(14) * (uint8_t)d->B(14) +
1382	4242b1bd	balrog	(int8_t)s->B(15) * (uint8_t)d->B(15));
1383	4242b1bd	balrog	#endif
1384	4242b1bd	balrog	}
1385	4242b1bd	balrog
1386	4242b1bd	balrog	void glue(helper_phsubw, SUFFIX) (Reg d, Reg s)
1387	4242b1bd	balrog	{
1388	4242b1bd	balrog	d->W(0) = (int16_t)d->W(0) - (int16_t)d->W(1);
1389	4242b1bd	balrog	d->W(1) = (int16_t)d->W(2) - (int16_t)d->W(3);
1390	4242b1bd	balrog	XMM_ONLY(d->W(2) = (int16_t)d->W(4) - (int16_t)d->W(5));
1391	4242b1bd	balrog	XMM_ONLY(d->W(3) = (int16_t)d->W(6) - (int16_t)d->W(7));
1392	4242b1bd	balrog	d->W((2 << SHIFT) + 0) = (int16_t)s->W(0) - (int16_t)s->W(1);
1393	4242b1bd	balrog	d->W((2 << SHIFT) + 1) = (int16_t)s->W(2) - (int16_t)s->W(3);
1394	4242b1bd	balrog	XMM_ONLY(d->W(6) = (int16_t)s->W(4) - (int16_t)s->W(5));
1395	4242b1bd	balrog	XMM_ONLY(d->W(7) = (int16_t)s->W(6) - (int16_t)s->W(7));
1396	4242b1bd	balrog	}
1397	4242b1bd	balrog
1398	4242b1bd	balrog	void glue(helper_phsubd, SUFFIX) (Reg d, Reg s)
1399	4242b1bd	balrog	{
1400	4242b1bd	balrog	d->L(0) = (int32_t)d->L(0) - (int32_t)d->L(1);
1401	4242b1bd	balrog	XMM_ONLY(d->L(1) = (int32_t)d->L(2) - (int32_t)d->L(3));
1402	4242b1bd	balrog	d->L((1 << SHIFT) + 0) = (int32_t)s->L(0) - (int32_t)s->L(1);
1403	4242b1bd	balrog	XMM_ONLY(d->L(3) = (int32_t)s->L(2) - (int32_t)s->L(3));
1404	4242b1bd	balrog	}
1405	4242b1bd	balrog
1406	4242b1bd	balrog	void glue(helper_phsubsw, SUFFIX) (Reg d, Reg s)
1407	4242b1bd	balrog	{
1408	4242b1bd	balrog	d->W(0) = satsw((int16_t)d->W(0) - (int16_t)d->W(1));
1409	4242b1bd	balrog	d->W(1) = satsw((int16_t)d->W(2) - (int16_t)d->W(3));
1410	4242b1bd	balrog	XMM_ONLY(d->W(2) = satsw((int16_t)d->W(4) - (int16_t)d->W(5)));
1411	4242b1bd	balrog	XMM_ONLY(d->W(3) = satsw((int16_t)d->W(6) - (int16_t)d->W(7)));
1412	4242b1bd	balrog	d->W((2 << SHIFT) + 0) = satsw((int16_t)s->W(0) - (int16_t)s->W(1));
1413	4242b1bd	balrog	d->W((2 << SHIFT) + 1) = satsw((int16_t)s->W(2) - (int16_t)s->W(3));
1414	4242b1bd	balrog	XMM_ONLY(d->W(6) = satsw((int16_t)s->W(4) - (int16_t)s->W(5)));
1415	4242b1bd	balrog	XMM_ONLY(d->W(7) = satsw((int16_t)s->W(6) - (int16_t)s->W(7)));
1416	4242b1bd	balrog	}
1417	4242b1bd	balrog
1418	4242b1bd	balrog	#define FABSB(_, x) x > INT8_MAX ? -(int8_t ) x : x
1419	4242b1bd	balrog	#define FABSW(_, x) x > INT16_MAX ? -(int16_t) x : x
1420	4242b1bd	balrog	#define FABSL(_, x) x > INT32_MAX ? -(int32_t) x : x
1421	4242b1bd	balrog	SSE_HELPER_B(helper_pabsb, FABSB)
1422	4242b1bd	balrog	SSE_HELPER_W(helper_pabsw, FABSW)
1423	4242b1bd	balrog	SSE_HELPER_L(helper_pabsd, FABSL)
1424	4242b1bd	balrog
1425	4242b1bd	balrog	#define FMULHRSW(d, s) ((int16_t) d * (int16_t) s + 0x4000) >> 15
1426	4242b1bd	balrog	SSE_HELPER_W(helper_pmulhrsw, FMULHRSW)
1427	4242b1bd	balrog
1428	4242b1bd	balrog	#define FSIGNB(d, s) s <= INT8_MAX ? s ? d : 0 : -(int8_t ) d
1429	4242b1bd	balrog	#define FSIGNW(d, s) s <= INT16_MAX ? s ? d : 0 : -(int16_t) d
1430	4242b1bd	balrog	#define FSIGNL(d, s) s <= INT32_MAX ? s ? d : 0 : -(int32_t) d
1431	4242b1bd	balrog	SSE_HELPER_B(helper_psignb, FSIGNB)
1432	4242b1bd	balrog	SSE_HELPER_W(helper_psignw, FSIGNW)
1433	4242b1bd	balrog	SSE_HELPER_L(helper_psignd, FSIGNL)
1434	4242b1bd	balrog
1435	4242b1bd	balrog	void glue(helper_palignr, SUFFIX) (Reg d, Reg s, int32_t shift)
1436	4242b1bd	balrog	{
1437	4242b1bd	balrog	Reg r;
1438	4242b1bd	balrog
1439	4242b1bd	balrog	/* XXX could be checked during translation */
1440	4242b1bd	balrog	if (shift >= (16 << SHIFT)) {
1441	4242b1bd	balrog	r.Q(0) = 0;
1442	4242b1bd	balrog	XMM_ONLY(r.Q(1) = 0);
1443	4242b1bd	balrog	} else {
1444	4242b1bd	balrog	shift <<= 3;
1445	4242b1bd	balrog	#define SHR(v, i) (i < 64 && i > -64 ? i > 0 ? v >> (i) : (v << -(i)) : 0)
1446	4242b1bd	balrog	#if SHIFT == 0
1447	4242b1bd	balrog	r.Q(0) = SHR(s->Q(0), shift - 0) \|
1448	4242b1bd	balrog	SHR(d->Q(0), shift - 64);
1449	4242b1bd	balrog	#else
1450	4242b1bd	balrog	r.Q(0) = SHR(s->Q(0), shift - 0) \|
1451	4242b1bd	balrog	SHR(s->Q(1), shift - 64) \|
1452	4242b1bd	balrog	SHR(d->Q(0), shift - 128) \|
1453	4242b1bd	balrog	SHR(d->Q(1), shift - 192);
1454	4242b1bd	balrog	r.Q(1) = SHR(s->Q(0), shift + 64) \|
1455	4242b1bd	balrog	SHR(s->Q(1), shift - 0) \|
1456	4242b1bd	balrog	SHR(d->Q(0), shift - 64) \|
1457	4242b1bd	balrog	SHR(d->Q(1), shift - 128);
1458	4242b1bd	balrog	#endif
1459	4242b1bd	balrog	#undef SHR
1460	4242b1bd	balrog	}
1461	4242b1bd	balrog
1462	4242b1bd	balrog	*d = r;
1463	4242b1bd	balrog	}
1464	4242b1bd	balrog
1465	222a3336	balrog	#define XMM0 env->xmm_regs[0]
1466	222a3336	balrog
1467	222a3336	balrog	#if SHIFT == 1
1468	222a3336	balrog	#define SSE_HELPER_V(name, elem, num, F)\
1469	222a3336	balrog	void glue(name, SUFFIX) (Reg d, Reg s)\
1470	222a3336	balrog	{\
1471	222a3336	balrog	d->elem(0) = F(d->elem(0), s->elem(0), XMM0.elem(0));\
1472	222a3336	balrog	d->elem(1) = F(d->elem(1), s->elem(1), XMM0.elem(1));\
1473	222a3336	balrog	if (num > 2) {\
1474	222a3336	balrog	d->elem(2) = F(d->elem(2), s->elem(2), XMM0.elem(2));\
1475	222a3336	balrog	d->elem(3) = F(d->elem(3), s->elem(3), XMM0.elem(3));\
1476	222a3336	balrog	if (num > 4) {\
1477	222a3336	balrog	d->elem(4) = F(d->elem(4), s->elem(4), XMM0.elem(4));\
1478	222a3336	balrog	d->elem(5) = F(d->elem(5), s->elem(5), XMM0.elem(5));\
1479	222a3336	balrog	d->elem(6) = F(d->elem(6), s->elem(6), XMM0.elem(6));\
1480	222a3336	balrog	d->elem(7) = F(d->elem(7), s->elem(7), XMM0.elem(7));\
1481	222a3336	balrog	if (num > 8) {\
1482	222a3336	balrog	d->elem(8) = F(d->elem(8), s->elem(8), XMM0.elem(8));\
1483	222a3336	balrog	d->elem(9) = F(d->elem(9), s->elem(9), XMM0.elem(9));\
1484	222a3336	balrog	d->elem(10) = F(d->elem(10), s->elem(10), XMM0.elem(10));\
1485	222a3336	balrog	d->elem(11) = F(d->elem(11), s->elem(11), XMM0.elem(11));\
1486	222a3336	balrog	d->elem(12) = F(d->elem(12), s->elem(12), XMM0.elem(12));\
1487	222a3336	balrog	d->elem(13) = F(d->elem(13), s->elem(13), XMM0.elem(13));\
1488	222a3336	balrog	d->elem(14) = F(d->elem(14), s->elem(14), XMM0.elem(14));\
1489	222a3336	balrog	d->elem(15) = F(d->elem(15), s->elem(15), XMM0.elem(15));\
1490	222a3336	balrog	}\
1491	222a3336	balrog	}\
1492	222a3336	balrog	}\
1493	222a3336	balrog	}
1494	222a3336	balrog
1495	222a3336	balrog	#define SSE_HELPER_I(name, elem, num, F)\
1496	222a3336	balrog	void glue(name, SUFFIX) (Reg d, Reg s, uint32_t imm)\
1497	222a3336	balrog	{\
1498	222a3336	balrog	d->elem(0) = F(d->elem(0), s->elem(0), ((imm >> 0) & 1));\
1499	222a3336	balrog	d->elem(1) = F(d->elem(1), s->elem(1), ((imm >> 1) & 1));\
1500	222a3336	balrog	if (num > 2) {\
1501	222a3336	balrog	d->elem(2) = F(d->elem(2), s->elem(2), ((imm >> 2) & 1));\
1502	222a3336	balrog	d->elem(3) = F(d->elem(3), s->elem(3), ((imm >> 3) & 1));\
1503	222a3336	balrog	if (num > 4) {\
1504	222a3336	balrog	d->elem(4) = F(d->elem(4), s->elem(4), ((imm >> 4) & 1));\
1505	222a3336	balrog	d->elem(5) = F(d->elem(5), s->elem(5), ((imm >> 5) & 1));\
1506	222a3336	balrog	d->elem(6) = F(d->elem(6), s->elem(6), ((imm >> 6) & 1));\
1507	222a3336	balrog	d->elem(7) = F(d->elem(7), s->elem(7), ((imm >> 7) & 1));\
1508	222a3336	balrog	if (num > 8) {\
1509	222a3336	balrog	d->elem(8) = F(d->elem(8), s->elem(8), ((imm >> 8) & 1));\
1510	222a3336	balrog	d->elem(9) = F(d->elem(9), s->elem(9), ((imm >> 9) & 1));\
1511	222a3336	balrog	d->elem(10) = F(d->elem(10), s->elem(10), ((imm >> 10) & 1));\
1512	222a3336	balrog	d->elem(11) = F(d->elem(11), s->elem(11), ((imm >> 11) & 1));\
1513	222a3336	balrog	d->elem(12) = F(d->elem(12), s->elem(12), ((imm >> 12) & 1));\
1514	222a3336	balrog	d->elem(13) = F(d->elem(13), s->elem(13), ((imm >> 13) & 1));\
1515	222a3336	balrog	d->elem(14) = F(d->elem(14), s->elem(14), ((imm >> 14) & 1));\
1516	222a3336	balrog	d->elem(15) = F(d->elem(15), s->elem(15), ((imm >> 15) & 1));\
1517	222a3336	balrog	}\
1518	222a3336	balrog	}\
1519	222a3336	balrog	}\
1520	222a3336	balrog	}
1521	222a3336	balrog
1522	222a3336	balrog	/* SSE4.1 op helpers */
1523	222a3336	balrog	#define FBLENDVB(d, s, m) (m & 0x80) ? s : d
1524	222a3336	balrog	#define FBLENDVPS(d, s, m) (m & 0x80000000) ? s : d
1525	000cacf6	balrog	#define FBLENDVPD(d, s, m) (m & 0x8000000000000000LL) ? s : d
1526	222a3336	balrog	SSE_HELPER_V(helper_pblendvb, B, 16, FBLENDVB)
1527	222a3336	balrog	SSE_HELPER_V(helper_blendvps, L, 4, FBLENDVPS)
1528	222a3336	balrog	SSE_HELPER_V(helper_blendvpd, Q, 2, FBLENDVPD)
1529	222a3336	balrog
1530	222a3336	balrog	void glue(helper_ptest, SUFFIX) (Reg d, Reg s)
1531	222a3336	balrog	{
1532	222a3336	balrog	uint64_t zf = (s->Q(0) & d->Q(0)) \| (s->Q(1) & d->Q(1));
1533	222a3336	balrog	uint64_t cf = (s->Q(0) & ~d->Q(0)) \| (s->Q(1) & ~d->Q(1));
1534	222a3336	balrog
1535	222a3336	balrog	CC_SRC = (zf ? 0 : CC_Z) \| (cf ? 0 : CC_C);
1536	222a3336	balrog	}
1537	222a3336	balrog
1538	222a3336	balrog	#define SSE_HELPER_F(name, elem, num, F)\
1539	222a3336	balrog	void glue(name, SUFFIX) (Reg d, Reg s)\
1540	222a3336	balrog	{\
1541	222a3336	balrog	d->elem(0) = F(0);\
1542	222a3336	balrog	d->elem(1) = F(1);\
1543	dcfd12b8	balrog	if (num > 2) {\
1544	dcfd12b8	balrog	d->elem(2) = F(2);\
1545	dcfd12b8	balrog	d->elem(3) = F(3);\
1546	dcfd12b8	balrog	if (num > 4) {\
1547	dcfd12b8	balrog	d->elem(4) = F(4);\
1548	dcfd12b8	balrog	d->elem(5) = F(5);\
1549	222a3336	balrog	d->elem(6) = F(6);\
1550	222a3336	balrog	d->elem(7) = F(7);\
1551	222a3336	balrog	}\
1552	222a3336	balrog	}\
1553	222a3336	balrog	}
1554	222a3336	balrog
1555	222a3336	balrog	SSE_HELPER_F(helper_pmovsxbw, W, 8, (int8_t) s->B)
1556	222a3336	balrog	SSE_HELPER_F(helper_pmovsxbd, L, 4, (int8_t) s->B)
1557	222a3336	balrog	SSE_HELPER_F(helper_pmovsxbq, Q, 2, (int8_t) s->B)
1558	222a3336	balrog	SSE_HELPER_F(helper_pmovsxwd, L, 4, (int16_t) s->W)
1559	222a3336	balrog	SSE_HELPER_F(helper_pmovsxwq, Q, 2, (int16_t) s->W)
1560	222a3336	balrog	SSE_HELPER_F(helper_pmovsxdq, Q, 2, (int32_t) s->L)
1561	222a3336	balrog	SSE_HELPER_F(helper_pmovzxbw, W, 8, s->B)
1562	222a3336	balrog	SSE_HELPER_F(helper_pmovzxbd, L, 4, s->B)
1563	222a3336	balrog	SSE_HELPER_F(helper_pmovzxbq, Q, 2, s->B)
1564	222a3336	balrog	SSE_HELPER_F(helper_pmovzxwd, L, 4, s->W)
1565	222a3336	balrog	SSE_HELPER_F(helper_pmovzxwq, Q, 2, s->W)
1566	222a3336	balrog	SSE_HELPER_F(helper_pmovzxdq, Q, 2, s->L)
1567	222a3336	balrog
1568	222a3336	balrog	void glue(helper_pmuldq, SUFFIX) (Reg d, Reg s)
1569	222a3336	balrog	{
1570	222a3336	balrog	d->Q(0) = (int64_t) (int32_t) d->L(0) * (int32_t) s->L(0);
1571	222a3336	balrog	d->Q(1) = (int64_t) (int32_t) d->L(2) * (int32_t) s->L(2);
1572	222a3336	balrog	}
1573	222a3336	balrog
1574	222a3336	balrog	#define FCMPEQQ(d, s) d == s ? -1 : 0
1575	222a3336	balrog	SSE_HELPER_Q(helper_pcmpeqq, FCMPEQQ)
1576	222a3336	balrog
1577	222a3336	balrog	void glue(helper_packusdw, SUFFIX) (Reg d, Reg s)
1578	222a3336	balrog	{
1579	222a3336	balrog	d->W(0) = satuw((int32_t) d->L(0));
1580	222a3336	balrog	d->W(1) = satuw((int32_t) d->L(1));
1581	222a3336	balrog	d->W(2) = satuw((int32_t) d->L(2));
1582	222a3336	balrog	d->W(3) = satuw((int32_t) d->L(3));
1583	222a3336	balrog	d->W(4) = satuw((int32_t) s->L(0));
1584	222a3336	balrog	d->W(5) = satuw((int32_t) s->L(1));
1585	222a3336	balrog	d->W(6) = satuw((int32_t) s->L(2));
1586	222a3336	balrog	d->W(7) = satuw((int32_t) s->L(3));
1587	222a3336	balrog	}
1588	222a3336	balrog
1589	222a3336	balrog	#define FMINSB(d, s) MIN((int8_t) d, (int8_t) s)
1590	222a3336	balrog	#define FMINSD(d, s) MIN((int32_t) d, (int32_t) s)
1591	222a3336	balrog	#define FMAXSB(d, s) MAX((int8_t) d, (int8_t) s)
1592	222a3336	balrog	#define FMAXSD(d, s) MAX((int32_t) d, (int32_t) s)
1593	222a3336	balrog	SSE_HELPER_B(helper_pminsb, FMINSB)
1594	222a3336	balrog	SSE_HELPER_L(helper_pminsd, FMINSD)
1595	222a3336	balrog	SSE_HELPER_W(helper_pminuw, MIN)
1596	222a3336	balrog	SSE_HELPER_L(helper_pminud, MIN)
1597	222a3336	balrog	SSE_HELPER_B(helper_pmaxsb, FMAXSB)
1598	222a3336	balrog	SSE_HELPER_L(helper_pmaxsd, FMAXSD)
1599	222a3336	balrog	SSE_HELPER_W(helper_pmaxuw, MAX)
1600	222a3336	balrog	SSE_HELPER_L(helper_pmaxud, MAX)
1601	222a3336	balrog
1602	222a3336	balrog	#define FMULLD(d, s) (int32_t) d * (int32_t) s
1603	222a3336	balrog	SSE_HELPER_L(helper_pmulld, FMULLD)
1604	222a3336	balrog
1605	222a3336	balrog	void glue(helper_phminposuw, SUFFIX) (Reg d, Reg s)
1606	222a3336	balrog	{
1607	222a3336	balrog	int idx = 0;
1608	222a3336	balrog
1609	222a3336	balrog	if (s->W(1) < s->W(idx))
1610	222a3336	balrog	idx = 1;
1611	222a3336	balrog	if (s->W(2) < s->W(idx))
1612	222a3336	balrog	idx = 2;
1613	222a3336	balrog	if (s->W(3) < s->W(idx))
1614	222a3336	balrog	idx = 3;
1615	222a3336	balrog	if (s->W(4) < s->W(idx))
1616	222a3336	balrog	idx = 4;
1617	222a3336	balrog	if (s->W(5) < s->W(idx))
1618	222a3336	balrog	idx = 5;
1619	222a3336	balrog	if (s->W(6) < s->W(idx))
1620	222a3336	balrog	idx = 6;
1621	222a3336	balrog	if (s->W(7) < s->W(idx))
1622	222a3336	balrog	idx = 7;
1623	222a3336	balrog
1624	222a3336	balrog	d->Q(1) = 0;
1625	222a3336	balrog	d->L(1) = 0;
1626	222a3336	balrog	d->W(1) = idx;
1627	222a3336	balrog	d->W(0) = s->W(idx);
1628	222a3336	balrog	}
1629	222a3336	balrog
1630	222a3336	balrog	void glue(helper_roundps, SUFFIX) (Reg d, Reg s, uint32_t mode)
1631	222a3336	balrog	{
1632	222a3336	balrog	signed char prev_rounding_mode;
1633	222a3336	balrog
1634	222a3336	balrog	prev_rounding_mode = env->sse_status.float_rounding_mode;
1635	222a3336	balrog	if (!(mode & (1 << 2)))
1636	222a3336	balrog	switch (mode & 3) {
1637	222a3336	balrog	case 0:
1638	222a3336	balrog	set_float_rounding_mode(float_round_nearest_even, &env->sse_status);
1639	222a3336	balrog	break;
1640	222a3336	balrog	case 1:
1641	222a3336	balrog	set_float_rounding_mode(float_round_down, &env->sse_status);
1642	222a3336	balrog	break;
1643	222a3336	balrog	case 2:
1644	222a3336	balrog	set_float_rounding_mode(float_round_up, &env->sse_status);
1645	222a3336	balrog	break;
1646	222a3336	balrog	case 3:
1647	222a3336	balrog	set_float_rounding_mode(float_round_to_zero, &env->sse_status);
1648	222a3336	balrog	break;
1649	222a3336	balrog	}
1650	222a3336	balrog
1651	222a3336	balrog	d->L(0) = float64_round_to_int(s->L(0), &env->sse_status);
1652	222a3336	balrog	d->L(1) = float64_round_to_int(s->L(1), &env->sse_status);
1653	222a3336	balrog	d->L(2) = float64_round_to_int(s->L(2), &env->sse_status);
1654	222a3336	balrog	d->L(3) = float64_round_to_int(s->L(3), &env->sse_status);
1655	222a3336	balrog
1656	222a3336	balrog	#if 0 /* TODO */
1657	222a3336	balrog	if (mode & (1 << 3))
1658	222a3336	balrog	set_float_exception_flags(
1659	222a3336	balrog	get_float_exception_flags(&env->sse_status) &
1660	222a3336	balrog	~float_flag_inexact,
1661	222a3336	balrog	&env->sse_status);
1662	222a3336	balrog	#endif
1663	222a3336	balrog	env->sse_status.float_rounding_mode = prev_rounding_mode;
1664	222a3336	balrog	}
1665	222a3336	balrog
1666	222a3336	balrog	void glue(helper_roundpd, SUFFIX) (Reg d, Reg s, uint32_t mode)
1667	222a3336	balrog	{
1668	222a3336	balrog	signed char prev_rounding_mode;
1669	222a3336	balrog
1670	222a3336	balrog	prev_rounding_mode = env->sse_status.float_rounding_mode;
1671	222a3336	balrog	if (!(mode & (1 << 2)))
1672	222a3336	balrog	switch (mode & 3) {
1673	222a3336	balrog	case 0:
1674	222a3336	balrog	set_float_rounding_mode(float_round_nearest_even, &env->sse_status);
1675	222a3336	balrog	break;
1676	222a3336	balrog	case 1:
1677	222a3336	balrog	set_float_rounding_mode(float_round_down, &env->sse_status);
1678	222a3336	balrog	break;
1679	222a3336	balrog	case 2:
1680	222a3336	balrog	set_float_rounding_mode(float_round_up, &env->sse_status);
1681	222a3336	balrog	break;
1682	222a3336	balrog	case 3:
1683	222a3336	balrog	set_float_rounding_mode(float_round_to_zero, &env->sse_status);
1684	222a3336	balrog	break;
1685	222a3336	balrog	}
1686	222a3336	balrog
1687	222a3336	balrog	d->Q(0) = float64_round_to_int(s->Q(0), &env->sse_status);
1688	222a3336	balrog	d->Q(1) = float64_round_to_int(s->Q(1), &env->sse_status);
1689	222a3336	balrog
1690	222a3336	balrog	#if 0 /* TODO */
1691	222a3336	balrog	if (mode & (1 << 3))
1692	222a3336	balrog	set_float_exception_flags(
1693	222a3336	balrog	get_float_exception_flags(&env->sse_status) &
1694	222a3336	balrog	~float_flag_inexact,
1695	222a3336	balrog	&env->sse_status);
1696	222a3336	balrog	#endif
1697	222a3336	balrog	env->sse_status.float_rounding_mode = prev_rounding_mode;
1698	222a3336	balrog	}
1699	222a3336	balrog
1700	222a3336	balrog	void glue(helper_roundss, SUFFIX) (Reg d, Reg s, uint32_t mode)
1701	222a3336	balrog	{
1702	222a3336	balrog	signed char prev_rounding_mode;
1703	222a3336	balrog
1704	222a3336	balrog	prev_rounding_mode = env->sse_status.float_rounding_mode;
1705	222a3336	balrog	if (!(mode & (1 << 2)))
1706	222a3336	balrog	switch (mode & 3) {
1707	222a3336	balrog	case 0:
1708	222a3336	balrog	set_float_rounding_mode(float_round_nearest_even, &env->sse_status);
1709	222a3336	balrog	break;
1710	222a3336	balrog	case 1:
1711	222a3336	balrog	set_float_rounding_mode(float_round_down, &env->sse_status);
1712	222a3336	balrog	break;
1713	222a3336	balrog	case 2:
1714	222a3336	balrog	set_float_rounding_mode(float_round_up, &env->sse_status);
1715	222a3336	balrog	break;
1716	222a3336	balrog	case 3:
1717	222a3336	balrog	set_float_rounding_mode(float_round_to_zero, &env->sse_status);
1718	222a3336	balrog	break;
1719	222a3336	balrog	}
1720	222a3336	balrog
1721	222a3336	balrog	d->L(0) = float64_round_to_int(s->L(0), &env->sse_status);
1722	222a3336	balrog
1723	222a3336	balrog	#if 0 /* TODO */
1724	222a3336	balrog	if (mode & (1 << 3))
1725	222a3336	balrog	set_float_exception_flags(
1726	222a3336	balrog	get_float_exception_flags(&env->sse_status) &
1727	222a3336	balrog	~float_flag_inexact,
1728	222a3336	balrog	&env->sse_status);
1729	222a3336	balrog	#endif
1730	222a3336	balrog	env->sse_status.float_rounding_mode = prev_rounding_mode;
1731	222a3336	balrog	}
1732	222a3336	balrog
1733	222a3336	balrog	void glue(helper_roundsd, SUFFIX) (Reg d, Reg s, uint32_t mode)
1734	222a3336	balrog	{
1735	222a3336	balrog	signed char prev_rounding_mode;
1736	222a3336	balrog
1737	222a3336	balrog	prev_rounding_mode = env->sse_status.float_rounding_mode;
1738	222a3336	balrog	if (!(mode & (1 << 2)))
1739	222a3336	balrog	switch (mode & 3) {
1740	222a3336	balrog	case 0:
1741	222a3336	balrog	set_float_rounding_mode(float_round_nearest_even, &env->sse_status);
1742	222a3336	balrog	break;
1743	222a3336	balrog	case 1:
1744	222a3336	balrog	set_float_rounding_mode(float_round_down, &env->sse_status);
1745	222a3336	balrog	break;
1746	222a3336	balrog	case 2:
1747	222a3336	balrog	set_float_rounding_mode(float_round_up, &env->sse_status);
1748	222a3336	balrog	break;
1749	222a3336	balrog	case 3:
1750	222a3336	balrog	set_float_rounding_mode(float_round_to_zero, &env->sse_status);
1751	222a3336	balrog	break;
1752	222a3336	balrog	}
1753	222a3336	balrog
1754	222a3336	balrog	d->Q(0) = float64_round_to_int(s->Q(0), &env->sse_status);
1755	222a3336	balrog
1756	222a3336	balrog	#if 0 /* TODO */
1757	222a3336	balrog	if (mode & (1 << 3))
1758	222a3336	balrog	set_float_exception_flags(
1759	222a3336	balrog	get_float_exception_flags(&env->sse_status) &
1760	222a3336	balrog	~float_flag_inexact,
1761	222a3336	balrog	&env->sse_status);
1762	222a3336	balrog	#endif
1763	222a3336	balrog	env->sse_status.float_rounding_mode = prev_rounding_mode;
1764	222a3336	balrog	}
1765	222a3336	balrog
1766	222a3336	balrog	#define FBLENDP(d, s, m) m ? s : d
1767	222a3336	balrog	SSE_HELPER_I(helper_blendps, L, 4, FBLENDP)
1768	222a3336	balrog	SSE_HELPER_I(helper_blendpd, Q, 2, FBLENDP)
1769	222a3336	balrog	SSE_HELPER_I(helper_pblendw, W, 8, FBLENDP)
1770	222a3336	balrog
1771	222a3336	balrog	void glue(helper_dpps, SUFFIX) (Reg d, Reg s, uint32_t mask)
1772	222a3336	balrog	{
1773	222a3336	balrog	float32 iresult = 0 /float32_zero/;
1774	222a3336	balrog
1775	222a3336	balrog	if (mask & (1 << 4))
1776	222a3336	balrog	iresult = float32_add(iresult,
1777	222a3336	balrog	float32_mul(d->L(0), s->L(0), &env->sse_status),
1778	222a3336	balrog	&env->sse_status);
1779	222a3336	balrog	if (mask & (1 << 5))
1780	222a3336	balrog	iresult = float32_add(iresult,
1781	222a3336	balrog	float32_mul(d->L(1), s->L(1), &env->sse_status),
1782	222a3336	balrog	&env->sse_status);
1783	222a3336	balrog	if (mask & (1 << 6))
1784	222a3336	balrog	iresult = float32_add(iresult,
1785	222a3336	balrog	float32_mul(d->L(2), s->L(2), &env->sse_status),
1786	222a3336	balrog	&env->sse_status);
1787	222a3336	balrog	if (mask & (1 << 7))
1788	222a3336	balrog	iresult = float32_add(iresult,
1789	222a3336	balrog	float32_mul(d->L(3), s->L(3), &env->sse_status),
1790	222a3336	balrog	&env->sse_status);
1791	222a3336	balrog	d->L(0) = (mask & (1 << 0)) ? iresult : 0 /float32_zero/;
1792	222a3336	balrog	d->L(1) = (mask & (1 << 1)) ? iresult : 0 /float32_zero/;
1793	222a3336	balrog	d->L(2) = (mask & (1 << 2)) ? iresult : 0 /float32_zero/;
1794	222a3336	balrog	d->L(3) = (mask & (1 << 3)) ? iresult : 0 /float32_zero/;
1795	222a3336	balrog	}
1796	222a3336	balrog
1797	222a3336	balrog	void glue(helper_dppd, SUFFIX) (Reg d, Reg s, uint32_t mask)
1798	222a3336	balrog	{
1799	222a3336	balrog	float64 iresult = 0 /float64_zero/;
1800	222a3336	balrog
1801	222a3336	balrog	if (mask & (1 << 4))
1802	222a3336	balrog	iresult = float64_add(iresult,
1803	222a3336	balrog	float64_mul(d->Q(0), s->Q(0), &env->sse_status),
1804	222a3336	balrog	&env->sse_status);
1805	222a3336	balrog	if (mask & (1 << 5))
1806	222a3336	balrog	iresult = float64_add(iresult,
1807	222a3336	balrog	float64_mul(d->Q(1), s->Q(1), &env->sse_status),
1808	222a3336	balrog	&env->sse_status);
1809	222a3336	balrog	d->Q(0) = (mask & (1 << 0)) ? iresult : 0 /float64_zero/;
1810	222a3336	balrog	d->Q(1) = (mask & (1 << 1)) ? iresult : 0 /float64_zero/;
1811	222a3336	balrog	}
1812	222a3336	balrog
1813	222a3336	balrog	void glue(helper_mpsadbw, SUFFIX) (Reg d, Reg s, uint32_t offset)
1814	222a3336	balrog	{
1815	222a3336	balrog	int s0 = (offset & 3) << 2;
1816	222a3336	balrog	int d0 = (offset & 4) << 0;
1817	222a3336	balrog	int i;
1818	222a3336	balrog	Reg r;
1819	222a3336	balrog
1820	222a3336	balrog	for (i = 0; i < 8; i++, d0++) {
1821	222a3336	balrog	r.W(i) = 0;
1822	222a3336	balrog	r.W(i) += abs1(d->B(d0 + 0) - s->B(s0 + 0));
1823	222a3336	balrog	r.W(i) += abs1(d->B(d0 + 1) - s->B(s0 + 1));
1824	222a3336	balrog	r.W(i) += abs1(d->B(d0 + 2) - s->B(s0 + 2));
1825	222a3336	balrog	r.W(i) += abs1(d->B(d0 + 3) - s->B(s0 + 3));
1826	222a3336	balrog	}
1827	222a3336	balrog
1828	222a3336	balrog	*d = r;
1829	222a3336	balrog	}
1830	222a3336	balrog
1831	222a3336	balrog	/* SSE4.2 op helpers */
1832	222a3336	balrog	/* it's unclear whether signed or unsigned */
1833	222a3336	balrog	#define FCMPGTQ(d, s) d > s ? -1 : 0
1834	222a3336	balrog	SSE_HELPER_Q(helper_pcmpgtq, FCMPGTQ)
1835	222a3336	balrog
1836	222a3336	balrog	static inline int pcmp_elen(int reg, uint32_t ctrl)
1837	222a3336	balrog	{
1838	222a3336	balrog	int val;
1839	222a3336	balrog
1840	222a3336	balrog	/* Presence of REX.W is indicated by a bit higher than 7 set */
1841	222a3336	balrog	if (ctrl >> 8)
1842	222a3336	balrog	val = abs1((int64_t) env->regs[reg]);
1843	222a3336	balrog	else
1844	222a3336	balrog	val = abs1((int32_t) env->regs[reg]);
1845	222a3336	balrog
1846	222a3336	balrog	if (ctrl & 1) {
1847	222a3336	balrog	if (val > 8)
1848	222a3336	balrog	return 8;
1849	222a3336	balrog	} else
1850	222a3336	balrog	if (val > 16)
1851	222a3336	balrog	return 16;
1852	222a3336	balrog
1853	222a3336	balrog	return val;
1854	222a3336	balrog	}
1855	222a3336	balrog
1856	222a3336	balrog	static inline int pcmp_ilen(Reg *r, uint8_t ctrl)
1857	222a3336	balrog	{
1858	222a3336	balrog	int val = 0;
1859	222a3336	balrog
1860	222a3336	balrog	if (ctrl & 1) {
1861	222a3336	balrog	while (val < 8 && r->W(val))
1862	222a3336	balrog	val++;
1863	222a3336	balrog	} else
1864	222a3336	balrog	while (val < 16 && r->B(val))
1865	222a3336	balrog	val++;
1866	222a3336	balrog
1867	222a3336	balrog	return val;
1868	222a3336	balrog	}
1869	222a3336	balrog
1870	222a3336	balrog	static inline int pcmp_val(Reg *r, uint8_t ctrl, int i)
1871	222a3336	balrog	{
1872	222a3336	balrog	switch ((ctrl >> 0) & 3) {
1873	222a3336	balrog	case 0:
1874	222a3336	balrog	return r->B(i);
1875	222a3336	balrog	case 1:
1876	222a3336	balrog	return r->W(i);
1877	222a3336	balrog	case 2:
1878	222a3336	balrog	return (int8_t) r->B(i);
1879	222a3336	balrog	case 3:
1880	222a3336	balrog	default:
1881	222a3336	balrog	return (int16_t) r->W(i);
1882	222a3336	balrog	}
1883	222a3336	balrog	}
1884	222a3336	balrog
1885	222a3336	balrog	static inline unsigned pcmpxstrx(Reg d, Reg s,
1886	222a3336	balrog	int8_t ctrl, int valids, int validd)
1887	222a3336	balrog	{
1888	222a3336	balrog	unsigned int res = 0;
1889	222a3336	balrog	int v;
1890	222a3336	balrog	int j, i;
1891	222a3336	balrog	int upper = (ctrl & 1) ? 7 : 15;
1892	222a3336	balrog
1893	222a3336	balrog	valids--;
1894	222a3336	balrog	validd--;
1895	222a3336	balrog
1896	222a3336	balrog	CC_SRC = (valids < upper ? CC_Z : 0) \| (validd < upper ? CC_S : 0);
1897	222a3336	balrog
1898	222a3336	balrog	switch ((ctrl >> 2) & 3) {
1899	222a3336	balrog	case 0:
1900	222a3336	balrog	for (j = valids; j >= 0; j--) {
1901	222a3336	balrog	res <<= 1;
1902	222a3336	balrog	v = pcmp_val(s, ctrl, j);
1903	222a3336	balrog	for (i = validd; i >= 0; i--)
1904	222a3336	balrog	res \|= (v == pcmp_val(d, ctrl, i));
1905	222a3336	balrog	}
1906	222a3336	balrog	break;
1907	222a3336	balrog	case 1:
1908	222a3336	balrog	for (j = valids; j >= 0; j--) {
1909	222a3336	balrog	res <<= 1;
1910	222a3336	balrog	v = pcmp_val(s, ctrl, j);
1911	222a3336	balrog	for (i = ((validd - 1) \| 1); i >= 0; i -= 2)
1912	222a3336	balrog	res \|= (pcmp_val(d, ctrl, i - 0) <= v &&
1913	222a3336	balrog	pcmp_val(d, ctrl, i - 1) >= v);
1914	222a3336	balrog	}
1915	222a3336	balrog	break;
1916	222a3336	balrog	case 2:
1917	222a3336	balrog	res = (2 << (upper - MAX(valids, validd))) - 1;
1918	222a3336	balrog	res <<= MAX(valids, validd) - MIN(valids, validd);
1919	222a3336	balrog	for (i = MIN(valids, validd); i >= 0; i--) {
1920	222a3336	balrog	res <<= 1;
1921	222a3336	balrog	v = pcmp_val(s, ctrl, i);
1922	222a3336	balrog	res \|= (v == pcmp_val(d, ctrl, i));
1923	222a3336	balrog	}
1924	222a3336	balrog	break;
1925	222a3336	balrog	case 3:
1926	222a3336	balrog	for (j = valids - validd; j >= 0; j--) {
1927	222a3336	balrog	res <<= 1;
1928	222a3336	balrog	res \|= 1;
1929	222a3336	balrog	for (i = MIN(upper - j, validd); i >= 0; i--)
1930	222a3336	balrog	res &= (pcmp_val(s, ctrl, i + j) == pcmp_val(d, ctrl, i));
1931	222a3336	balrog	}
1932	222a3336	balrog	break;
1933	222a3336	balrog	}
1934	222a3336	balrog
1935	222a3336	balrog	switch ((ctrl >> 4) & 3) {
1936	222a3336	balrog	case 1:
1937	222a3336	balrog	res ^= (2 << upper) - 1;
1938	222a3336	balrog	break;
1939	222a3336	balrog	case 3:
1940	222a3336	balrog	res ^= (2 << valids) - 1;
1941	222a3336	balrog	break;
1942	222a3336	balrog	}
1943	222a3336	balrog
1944	222a3336	balrog	if (res)
1945	222a3336	balrog	CC_SRC \|= CC_C;
1946	222a3336	balrog	if (res & 1)
1947	222a3336	balrog	CC_SRC \|= CC_O;
1948	222a3336	balrog
1949	222a3336	balrog	return res;
1950	222a3336	balrog	}
1951	222a3336	balrog
1952	222a3336	balrog	static inline int rffs1(unsigned int val)
1953	222a3336	balrog	{
1954	222a3336	balrog	int ret = 1, hi;
1955	222a3336	balrog
1956	222a3336	balrog	for (hi = sizeof(val) * 4; hi; hi /= 2)
1957	222a3336	balrog	if (val >> hi) {
1958	222a3336	balrog	val >>= hi;
1959	222a3336	balrog	ret += hi;
1960	222a3336	balrog	}
1961	222a3336	balrog
1962	222a3336	balrog	return ret;
1963	222a3336	balrog	}
1964	222a3336	balrog
1965	222a3336	balrog	static inline int ffs1(unsigned int val)
1966	222a3336	balrog	{
1967	222a3336	balrog	int ret = 1, hi;
1968	222a3336	balrog
1969	222a3336	balrog	for (hi = sizeof(val) * 4; hi; hi /= 2)
1970	222a3336	balrog	if (val << hi) {
1971	222a3336	balrog	val <<= hi;
1972	222a3336	balrog	ret += hi;
1973	222a3336	balrog	}
1974	222a3336	balrog
1975	222a3336	balrog	return ret;
1976	222a3336	balrog	}
1977	222a3336	balrog
1978	222a3336	balrog	void glue(helper_pcmpestri, SUFFIX) (Reg d, Reg s, uint32_t ctrl)
1979	222a3336	balrog	{
1980	222a3336	balrog	unsigned int res = pcmpxstrx(d, s, ctrl,
1981	222a3336	balrog	pcmp_elen(R_EDX, ctrl),
1982	222a3336	balrog	pcmp_elen(R_EAX, ctrl));
1983	222a3336	balrog
1984	222a3336	balrog	if (res)
1985	222a3336	balrog	env->regs[R_ECX] = ((ctrl & (1 << 6)) ? rffs1 : ffs1)(res) - 1;
1986	222a3336	balrog	else
1987	222a3336	balrog	env->regs[R_ECX] = 16 >> (ctrl & (1 << 0));
1988	222a3336	balrog	}
1989	222a3336	balrog
1990	222a3336	balrog	void glue(helper_pcmpestrm, SUFFIX) (Reg d, Reg s, uint32_t ctrl)
1991	222a3336	balrog	{
1992	222a3336	balrog	int i;
1993	222a3336	balrog	unsigned int res = pcmpxstrx(d, s, ctrl,
1994	222a3336	balrog	pcmp_elen(R_EDX, ctrl),
1995	222a3336	balrog	pcmp_elen(R_EAX, ctrl));
1996	222a3336	balrog
1997	222a3336	balrog	if ((ctrl >> 6) & 1) {
1998	222a3336	balrog	if (ctrl & 1)
1999	222a3336	balrog	for (i = 0; i <= 8; i--, res >>= 1)
2000	222a3336	balrog	d->W(i) = (res & 1) ? ~0 : 0;
2001	222a3336	balrog	else
2002	222a3336	balrog	for (i = 0; i <= 16; i--, res >>= 1)
2003	222a3336	balrog	d->B(i) = (res & 1) ? ~0 : 0;
2004	222a3336	balrog	} else {
2005	222a3336	balrog	d->Q(1) = 0;
2006	222a3336	balrog	d->Q(0) = res;
2007	222a3336	balrog	}
2008	222a3336	balrog	}
2009	222a3336	balrog
2010	222a3336	balrog	void glue(helper_pcmpistri, SUFFIX) (Reg d, Reg s, uint32_t ctrl)
2011	222a3336	balrog	{
2012	222a3336	balrog	unsigned int res = pcmpxstrx(d, s, ctrl,
2013	222a3336	balrog	pcmp_ilen(s, ctrl),
2014	222a3336	balrog	pcmp_ilen(d, ctrl));
2015	222a3336	balrog
2016	222a3336	balrog	if (res)
2017	222a3336	balrog	env->regs[R_ECX] = ((ctrl & (1 << 6)) ? rffs1 : ffs1)(res) - 1;
2018	222a3336	balrog	else
2019	222a3336	balrog	env->regs[R_ECX] = 16 >> (ctrl & (1 << 0));
2020	222a3336	balrog	}
2021	222a3336	balrog
2022	222a3336	balrog	void glue(helper_pcmpistrm, SUFFIX) (Reg d, Reg s, uint32_t ctrl)
2023	222a3336	balrog	{
2024	222a3336	balrog	int i;
2025	222a3336	balrog	unsigned int res = pcmpxstrx(d, s, ctrl,
2026	222a3336	balrog	pcmp_ilen(s, ctrl),
2027	222a3336	balrog	pcmp_ilen(d, ctrl));
2028	222a3336	balrog
2029	222a3336	balrog	if ((ctrl >> 6) & 1) {
2030	222a3336	balrog	if (ctrl & 1)
2031	222a3336	balrog	for (i = 0; i <= 8; i--, res >>= 1)
2032	222a3336	balrog	d->W(i) = (res & 1) ? ~0 : 0;
2033	222a3336	balrog	else
2034	222a3336	balrog	for (i = 0; i <= 16; i--, res >>= 1)
2035	222a3336	balrog	d->B(i) = (res & 1) ? ~0 : 0;
2036	222a3336	balrog	} else {
2037	222a3336	balrog	d->Q(1) = 0;
2038	222a3336	balrog	d->Q(0) = res;
2039	222a3336	balrog	}
2040	222a3336	balrog	}
2041	222a3336	balrog
2042	222a3336	balrog	#define CRCPOLY 0x1edc6f41
2043	222a3336	balrog	#define CRCPOLY_BITREV 0x82f63b78
2044	222a3336	balrog	target_ulong helper_crc32(uint32_t crc1, target_ulong msg, uint32_t len)
2045	222a3336	balrog	{
2046	222a3336	balrog	target_ulong crc = (msg & ((target_ulong) -1 >>
2047	222a3336	balrog	(TARGET_LONG_BITS - len))) ^ crc1;
2048	222a3336	balrog
2049	222a3336	balrog	while (len--)
2050	222a3336	balrog	crc = (crc >> 1) ^ ((crc & 1) ? CRCPOLY_BITREV : 0);
2051	222a3336	balrog
2052	222a3336	balrog	return crc;
2053	222a3336	balrog	}
2054	222a3336	balrog
2055	222a3336	balrog	#define POPMASK(i) ((target_ulong) -1 / ((1LL << (1 << i)) + 1))
2056	222a3336	balrog	#define POPCOUNT(n, i) (n & POPMASK(i)) + ((n >> (1 << i)) & POPMASK(i))
2057	222a3336	balrog	target_ulong helper_popcnt(target_ulong n, uint32_t type)
2058	222a3336	balrog	{
2059	222a3336	balrog	CC_SRC = n ? 0 : CC_Z;
2060	222a3336	balrog
2061	222a3336	balrog	n = POPCOUNT(n, 0);
2062	222a3336	balrog	n = POPCOUNT(n, 1);
2063	222a3336	balrog	n = POPCOUNT(n, 2);
2064	222a3336	balrog	n = POPCOUNT(n, 3);
2065	222a3336	balrog	if (type == 1)
2066	222a3336	balrog	return n & 0xff;
2067	222a3336	balrog
2068	222a3336	balrog	n = POPCOUNT(n, 4);
2069	222a3336	balrog	#ifndef TARGET_X86_64
2070	222a3336	balrog	return n;
2071	222a3336	balrog	#else
2072	222a3336	balrog	if (type == 2)
2073	222a3336	balrog	return n & 0xff;
2074	222a3336	balrog
2075	222a3336	balrog	return POPCOUNT(n, 5);
2076	222a3336	balrog	#endif
2077	222a3336	balrog	}
2078	222a3336	balrog	#endif
2079	222a3336	balrog
2080	664e0f19	bellard	#undef SHIFT
2081	664e0f19	bellard	#undef XMM_ONLY
2082	664e0f19	bellard	#undef Reg
2083	664e0f19	bellard	#undef B
2084	664e0f19	bellard	#undef W
2085	664e0f19	bellard	#undef L
2086	664e0f19	bellard	#undef Q
2087	664e0f19	bellard	#undef SUFFIX

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