• file
• revisions
• annotate
• diff
• comparison
• raw

test/compiler/6340864/TestByteVect.java@b2c669fd8114 (annotated)

test/compiler/6340864/TestByteVect.java

Tue, 23 Oct 2012 13:06:37 -0700

author

kvn

date

Tue, 23 Oct 2012 13:06:37 -0700

changeset 4204

b2c669fd8114

parent 4001

006050192a5a

child 6876

710a3c8b516e

permissions

-rw-r--r--

8001183: incorrect results of char vectors right shift operaiton
Summary: do vector right shift operation for small int types only after loads
Reviewed-by: jrose, dlong

kvn@4001	1	/*
kvn@4001	2	* Copyright (c) 2012, Oracle and/or its affiliates. All rights reserved.
kvn@4001	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
kvn@4001	4	*
kvn@4001	5	* This code is free software; you can redistribute it and/or modify it
kvn@4001	6	* under the terms of the GNU General Public License version 2 only, as
kvn@4001	7	* published by the Free Software Foundation.
kvn@4001	8	*
kvn@4001	9	* This code is distributed in the hope that it will be useful, but WITHOUT
kvn@4001	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
kvn@4001	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
kvn@4001	12	* version 2 for more details (a copy is included in the LICENSE file that
kvn@4001	13	* accompanied this code).
kvn@4001	14	*
kvn@4001	15	* You should have received a copy of the GNU General Public License version
kvn@4001	16	* 2 along with this work; if not, write to the Free Software Foundation,
kvn@4001	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
kvn@4001	18	*
kvn@4001	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
kvn@4001	20	* or visit www.oracle.com if you need additional information or have any
kvn@4001	21	* questions.
kvn@4001	22	*
kvn@4001	23	*/
kvn@4001	24
kvn@4001	25	/**
kvn@4001	26	* @test
kvn@4001	27	* @bug 6340864
kvn@4001	28	* @summary Implement vectorization optimizations in hotspot-server
kvn@4001	29	*
kvn@4001	30	* @run main/othervm/timeout=400 -Xbatch -Xmx64m TestByteVect
kvn@4001	31	*/
kvn@4001	32
kvn@4001	33	public class TestByteVect {
kvn@4001	34	private static final int ARRLEN = 997;
kvn@4001	35	private static final int ITERS = 11000;
kvn@4204	36	private static final int ADD_INIT = 63;
kvn@4001	37	private static final int BIT_MASK = 0xB7;
kvn@4001	38	private static final int VALUE = 3;
kvn@4001	39	private static final int SHIFT = 8;
kvn@4001	40
kvn@4001	41	public static void main(String args[]) {
kvn@4001	42	System.out.println("Testing Byte vectors");
kvn@4001	43	int errn = test();
kvn@4001	44	if (errn > 0) {
kvn@4001	45	System.err.println("FAILED: " + errn + " errors");
kvn@4001	46	System.exit(97);
kvn@4001	47	}
kvn@4001	48	System.out.println("PASSED");
kvn@4001	49	}
kvn@4001	50
kvn@4001	51	static int test() {
kvn@4001	52	byte[] a0 = new byte[ARRLEN];
kvn@4001	53	byte[] a1 = new byte[ARRLEN];
kvn@4001	54	byte[] a2 = new byte[ARRLEN];
kvn@4001	55	byte[] a3 = new byte[ARRLEN];
kvn@4001	56	byte[] a4 = new byte[ARRLEN];
kvn@4001	57	short[] p2 = new short[ARRLEN/2];
kvn@4001	58	int[] p4 = new int[ARRLEN/4];
kvn@4001	59	long[] p8 = new long[ARRLEN/8];
kvn@4001	60	// Initialize
kvn@4001	61	int gold_sum = 0;
kvn@4001	62	for (int i=0; i<ARRLEN; i++) {
kvn@4001	63	byte val = (byte)(ADD_INIT+i);
kvn@4001	64	gold_sum += val;
kvn@4001	65	a1[i] = val;
kvn@4001	66	a2[i] = (byte)VALUE;
kvn@4001	67	a3[i] = (byte)-VALUE;
kvn@4001	68	a4[i] = (byte)BIT_MASK;
kvn@4001	69	}
kvn@4001	70	System.out.println("Warmup");
kvn@4001	71	for (int i=0; i<ITERS; i++) {
kvn@4001	72	test_sum(a1);
kvn@4001	73	test_addc(a0, a1);
kvn@4001	74	test_addv(a0, a1, (byte)VALUE);
kvn@4001	75	test_adda(a0, a1, a2);
kvn@4001	76	test_subc(a0, a1);
kvn@4001	77	test_subv(a0, a1, (byte)VALUE);
kvn@4001	78	test_suba(a0, a1, a2);
kvn@4204	79
kvn@4001	80	test_mulc(a0, a1);
kvn@4001	81	test_mulv(a0, a1, (byte)VALUE);
kvn@4001	82	test_mula(a0, a1, a2);
kvn@4001	83	test_divc(a0, a1);
kvn@4001	84	test_divv(a0, a1, (byte)VALUE);
kvn@4001	85	test_diva(a0, a1, a2);
kvn@4001	86	test_mulc_n(a0, a1);
kvn@4001	87	test_mulv(a0, a1, (byte)-VALUE);
kvn@4001	88	test_mula(a0, a1, a3);
kvn@4001	89	test_divc_n(a0, a1);
kvn@4001	90	test_divv(a0, a1, (byte)-VALUE);
kvn@4001	91	test_diva(a0, a1, a3);
kvn@4204	92
kvn@4001	93	test_andc(a0, a1);
kvn@4001	94	test_andv(a0, a1, (byte)BIT_MASK);
kvn@4001	95	test_anda(a0, a1, a4);
kvn@4001	96	test_orc(a0, a1);
kvn@4001	97	test_orv(a0, a1, (byte)BIT_MASK);
kvn@4001	98	test_ora(a0, a1, a4);
kvn@4001	99	test_xorc(a0, a1);
kvn@4001	100	test_xorv(a0, a1, (byte)BIT_MASK);
kvn@4001	101	test_xora(a0, a1, a4);
kvn@4204	102
kvn@4001	103	test_sllc(a0, a1);
kvn@4001	104	test_sllv(a0, a1, VALUE);
kvn@4001	105	test_srlc(a0, a1);
kvn@4001	106	test_srlv(a0, a1, VALUE);
kvn@4001	107	test_srac(a0, a1);
kvn@4001	108	test_srav(a0, a1, VALUE);
kvn@4204	109
kvn@4001	110	test_sllc_n(a0, a1);
kvn@4001	111	test_sllv(a0, a1, -VALUE);
kvn@4001	112	test_srlc_n(a0, a1);
kvn@4001	113	test_srlv(a0, a1, -VALUE);
kvn@4001	114	test_srac_n(a0, a1);
kvn@4001	115	test_srav(a0, a1, -VALUE);
kvn@4204	116
kvn@4001	117	test_sllc_o(a0, a1);
kvn@4001	118	test_sllv(a0, a1, SHIFT);
kvn@4001	119	test_srlc_o(a0, a1);
kvn@4001	120	test_srlv(a0, a1, SHIFT);
kvn@4001	121	test_srac_o(a0, a1);
kvn@4001	122	test_srav(a0, a1, SHIFT);
kvn@4204	123
kvn@4001	124	test_sllc_on(a0, a1);
kvn@4001	125	test_sllv(a0, a1, -SHIFT);
kvn@4001	126	test_srlc_on(a0, a1);
kvn@4001	127	test_srlv(a0, a1, -SHIFT);
kvn@4001	128	test_srac_on(a0, a1);
kvn@4001	129	test_srav(a0, a1, -SHIFT);
kvn@4204	130
kvn@4204	131	test_sllc_add(a0, a1);
kvn@4204	132	test_sllv_add(a0, a1, ADD_INIT);
kvn@4204	133	test_srlc_add(a0, a1);
kvn@4204	134	test_srlv_add(a0, a1, ADD_INIT);
kvn@4204	135	test_srac_add(a0, a1);
kvn@4204	136	test_srav_add(a0, a1, ADD_INIT);
kvn@4204	137
kvn@4204	138	test_sllc_and(a0, a1);
kvn@4204	139	test_sllv_and(a0, a1, BIT_MASK);
kvn@4204	140	test_srlc_and(a0, a1);
kvn@4204	141	test_srlv_and(a0, a1, BIT_MASK);
kvn@4204	142	test_srac_and(a0, a1);
kvn@4204	143	test_srav_and(a0, a1, BIT_MASK);
kvn@4204	144
kvn@4001	145	test_pack2(p2, a1);
kvn@4001	146	test_unpack2(a0, p2);
kvn@4001	147	test_pack2_swap(p2, a1);
kvn@4001	148	test_unpack2_swap(a0, p2);
kvn@4001	149	test_pack4(p4, a1);
kvn@4001	150	test_unpack4(a0, p4);
kvn@4001	151	test_pack4_swap(p4, a1);
kvn@4001	152	test_unpack4_swap(a0, p4);
kvn@4001	153	test_pack8(p8, a1);
kvn@4001	154	test_unpack8(a0, p8);
kvn@4001	155	test_pack8_swap(p8, a1);
kvn@4001	156	test_unpack8_swap(a0, p8);
kvn@4001	157	}
kvn@4001	158	// Test and verify results
kvn@4001	159	System.out.println("Verification");
kvn@4001	160	int errn = 0;
kvn@4001	161	{
kvn@4001	162	int sum = test_sum(a1);
kvn@4001	163	if (sum != gold_sum) {
kvn@4001	164	System.err.println("test_sum: " + sum + " != " + gold_sum);
kvn@4001	165	errn++;
kvn@4001	166	}
kvn@4001	167
kvn@4001	168	test_addc(a0, a1);
kvn@4001	169	for (int i=0; i<ARRLEN; i++) {
kvn@4001	170	errn += verify("test_addc: ", i, a0[i], (byte)((byte)(ADD_INIT+i)+VALUE));
kvn@4001	171	}
kvn@4001	172	test_addv(a0, a1, (byte)VALUE);
kvn@4001	173	for (int i=0; i<ARRLEN; i++) {
kvn@4001	174	errn += verify("test_addv: ", i, a0[i], (byte)((byte)(ADD_INIT+i)+VALUE));
kvn@4001	175	}
kvn@4001	176	test_adda(a0, a1, a2);
kvn@4001	177	for (int i=0; i<ARRLEN; i++) {
kvn@4001	178	errn += verify("test_adda: ", i, a0[i], (byte)((byte)(ADD_INIT+i)+VALUE));
kvn@4001	179	}
kvn@4001	180
kvn@4001	181	test_subc(a0, a1);
kvn@4001	182	for (int i=0; i<ARRLEN; i++) {
kvn@4001	183	errn += verify("test_subc: ", i, a0[i], (byte)((byte)(ADD_INIT+i)-VALUE));
kvn@4001	184	}
kvn@4001	185	test_subv(a0, a1, (byte)VALUE);
kvn@4001	186	for (int i=0; i<ARRLEN; i++) {
kvn@4001	187	errn += verify("test_subv: ", i, a0[i], (byte)((byte)(ADD_INIT+i)-VALUE));
kvn@4001	188	}
kvn@4001	189	test_suba(a0, a1, a2);
kvn@4001	190	for (int i=0; i<ARRLEN; i++) {
kvn@4001	191	errn += verify("test_suba: ", i, a0[i], (byte)((byte)(ADD_INIT+i)-VALUE));
kvn@4001	192	}
kvn@4001	193
kvn@4001	194	test_mulc(a0, a1);
kvn@4001	195	for (int i=0; i<ARRLEN; i++) {
kvn@4001	196	errn += verify("test_mulc: ", i, a0[i], (byte)((byte)(ADD_INIT+i)*VALUE));
kvn@4001	197	}
kvn@4001	198	test_mulv(a0, a1, (byte)VALUE);
kvn@4001	199	for (int i=0; i<ARRLEN; i++) {
kvn@4001	200	errn += verify("test_mulv: ", i, a0[i], (byte)((byte)(ADD_INIT+i)*VALUE));
kvn@4001	201	}
kvn@4001	202	test_mula(a0, a1, a2);
kvn@4001	203	for (int i=0; i<ARRLEN; i++) {
kvn@4001	204	errn += verify("test_mula: ", i, a0[i], (byte)((byte)(ADD_INIT+i)*VALUE));
kvn@4001	205	}
kvn@4001	206
kvn@4001	207	test_divc(a0, a1);
kvn@4001	208	for (int i=0; i<ARRLEN; i++) {
kvn@4001	209	errn += verify("test_divc: ", i, a0[i], (byte)((byte)(ADD_INIT+i)/VALUE));
kvn@4001	210	}
kvn@4001	211	test_divv(a0, a1, (byte)VALUE);
kvn@4001	212	for (int i=0; i<ARRLEN; i++) {
kvn@4001	213	errn += verify("test_divv: ", i, a0[i], (byte)((byte)(ADD_INIT+i)/VALUE));
kvn@4001	214	}
kvn@4001	215	test_diva(a0, a1, a2);
kvn@4001	216	for (int i=0; i<ARRLEN; i++) {
kvn@4001	217	errn += verify("test_diva: ", i, a0[i], (byte)((byte)(ADD_INIT+i)/VALUE));
kvn@4001	218	}
kvn@4001	219
kvn@4001	220	test_mulc_n(a0, a1);
kvn@4001	221	for (int i=0; i<ARRLEN; i++) {
kvn@4001	222	errn += verify("test_mulc_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)*(-VALUE)));
kvn@4001	223	}
kvn@4001	224	test_mulv(a0, a1, (byte)-VALUE);
kvn@4001	225	for (int i=0; i<ARRLEN; i++) {
kvn@4001	226	errn += verify("test_mulv_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)*(-VALUE)));
kvn@4001	227	}
kvn@4001	228	test_mula(a0, a1, a3);
kvn@4001	229	for (int i=0; i<ARRLEN; i++) {
kvn@4001	230	errn += verify("test_mula_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)*(-VALUE)));
kvn@4001	231	}
kvn@4001	232
kvn@4001	233	test_divc_n(a0, a1);
kvn@4001	234	for (int i=0; i<ARRLEN; i++) {
kvn@4001	235	errn += verify("test_divc_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)/(-VALUE)));
kvn@4001	236	}
kvn@4001	237	test_divv(a0, a1, (byte)-VALUE);
kvn@4001	238	for (int i=0; i<ARRLEN; i++) {
kvn@4001	239	errn += verify("test_divv_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)/(-VALUE)));
kvn@4001	240	}
kvn@4001	241	test_diva(a0, a1, a3);
kvn@4001	242	for (int i=0; i<ARRLEN; i++) {
kvn@4001	243	errn += verify("test_diva_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)/(-VALUE)));
kvn@4001	244	}
kvn@4001	245
kvn@4001	246	test_andc(a0, a1);
kvn@4001	247	for (int i=0; i<ARRLEN; i++) {
kvn@4001	248	errn += verify("test_andc: ", i, a0[i], (byte)((byte)(ADD_INIT+i)&BIT_MASK));
kvn@4001	249	}
kvn@4001	250	test_andv(a0, a1, (byte)BIT_MASK);
kvn@4001	251	for (int i=0; i<ARRLEN; i++) {
kvn@4001	252	errn += verify("test_andv: ", i, a0[i], (byte)((byte)(ADD_INIT+i)&BIT_MASK));
kvn@4001	253	}
kvn@4001	254	test_anda(a0, a1, a4);
kvn@4001	255	for (int i=0; i<ARRLEN; i++) {
kvn@4001	256	errn += verify("test_anda: ", i, a0[i], (byte)((byte)(ADD_INIT+i)&BIT_MASK));
kvn@4001	257	}
kvn@4001	258
kvn@4001	259	test_orc(a0, a1);
kvn@4001	260	for (int i=0; i<ARRLEN; i++) {
kvn@4001	261	errn += verify("test_orc: ", i, a0[i], (byte)((byte)(ADD_INIT+i)|BIT_MASK));
kvn@4001	262	}
kvn@4001	263	test_orv(a0, a1, (byte)BIT_MASK);
kvn@4001	264	for (int i=0; i<ARRLEN; i++) {
kvn@4001	265	errn += verify("test_orv: ", i, a0[i], (byte)((byte)(ADD_INIT+i)|BIT_MASK));
kvn@4001	266	}
kvn@4001	267	test_ora(a0, a1, a4);
kvn@4001	268	for (int i=0; i<ARRLEN; i++) {
kvn@4001	269	errn += verify("test_ora: ", i, a0[i], (byte)((byte)(ADD_INIT+i)|BIT_MASK));
kvn@4001	270	}
kvn@4001	271
kvn@4001	272	test_xorc(a0, a1);
kvn@4001	273	for (int i=0; i<ARRLEN; i++) {
kvn@4001	274	errn += verify("test_xorc: ", i, a0[i], (byte)((byte)(ADD_INIT+i)^BIT_MASK));
kvn@4001	275	}
kvn@4001	276	test_xorv(a0, a1, (byte)BIT_MASK);
kvn@4001	277	for (int i=0; i<ARRLEN; i++) {
kvn@4001	278	errn += verify("test_xorv: ", i, a0[i], (byte)((byte)(ADD_INIT+i)^BIT_MASK));
kvn@4001	279	}
kvn@4001	280	test_xora(a0, a1, a4);
kvn@4001	281	for (int i=0; i<ARRLEN; i++) {
kvn@4001	282	errn += verify("test_xora: ", i, a0[i], (byte)((byte)(ADD_INIT+i)^BIT_MASK));
kvn@4001	283	}
kvn@4001	284
kvn@4001	285	test_sllc(a0, a1);
kvn@4001	286	for (int i=0; i<ARRLEN; i++) {
kvn@4001	287	errn += verify("test_sllc: ", i, a0[i], (byte)((byte)(ADD_INIT+i)<<VALUE));
kvn@4001	288	}
kvn@4001	289	test_sllv(a0, a1, VALUE);
kvn@4001	290	for (int i=0; i<ARRLEN; i++) {
kvn@4001	291	errn += verify("test_sllv: ", i, a0[i], (byte)((byte)(ADD_INIT+i)<<VALUE));
kvn@4001	292	}
kvn@4001	293
kvn@4001	294	test_srlc(a0, a1);
kvn@4001	295	for (int i=0; i<ARRLEN; i++) {
kvn@4001	296	errn += verify("test_srlc: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>>VALUE));
kvn@4001	297	}
kvn@4001	298	test_srlv(a0, a1, VALUE);
kvn@4001	299	for (int i=0; i<ARRLEN; i++) {
kvn@4001	300	errn += verify("test_srlv: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>>VALUE));
kvn@4001	301	}
kvn@4001	302
kvn@4001	303	test_srac(a0, a1);
kvn@4001	304	for (int i=0; i<ARRLEN; i++) {
kvn@4001	305	errn += verify("test_srac: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>VALUE));
kvn@4001	306	}
kvn@4001	307	test_srav(a0, a1, VALUE);
kvn@4001	308	for (int i=0; i<ARRLEN; i++) {
kvn@4001	309	errn += verify("test_srav: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>VALUE));
kvn@4001	310	}
kvn@4001	311
kvn@4001	312	test_sllc_n(a0, a1);
kvn@4001	313	for (int i=0; i<ARRLEN; i++) {
kvn@4001	314	errn += verify("test_sllc_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)<<(-VALUE)));
kvn@4001	315	}
kvn@4001	316	test_sllv(a0, a1, -VALUE);
kvn@4001	317	for (int i=0; i<ARRLEN; i++) {
kvn@4001	318	errn += verify("test_sllv_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)<<(-VALUE)));
kvn@4001	319	}
kvn@4001	320
kvn@4001	321	test_srlc_n(a0, a1);
kvn@4001	322	for (int i=0; i<ARRLEN; i++) {
kvn@4001	323	errn += verify("test_srlc_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>>(-VALUE)));
kvn@4001	324	}
kvn@4001	325	test_srlv(a0, a1, -VALUE);
kvn@4001	326	for (int i=0; i<ARRLEN; i++) {
kvn@4001	327	errn += verify("test_srlv_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>>(-VALUE)));
kvn@4001	328	}
kvn@4001	329
kvn@4001	330	test_srac_n(a0, a1);
kvn@4001	331	for (int i=0; i<ARRLEN; i++) {
kvn@4001	332	errn += verify("test_srac_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>(-VALUE)));
kvn@4001	333	}
kvn@4001	334	test_srav(a0, a1, -VALUE);
kvn@4001	335	for (int i=0; i<ARRLEN; i++) {
kvn@4001	336	errn += verify("test_srav_n: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>(-VALUE)));
kvn@4001	337	}
kvn@4001	338
kvn@4001	339	test_sllc_o(a0, a1);
kvn@4001	340	for (int i=0; i<ARRLEN; i++) {
kvn@4001	341	errn += verify("test_sllc_o: ", i, a0[i], (byte)((byte)(ADD_INIT+i)<<SHIFT));
kvn@4001	342	}
kvn@4001	343	test_sllv(a0, a1, SHIFT);
kvn@4001	344	for (int i=0; i<ARRLEN; i++) {
kvn@4001	345	errn += verify("test_sllv_o: ", i, a0[i], (byte)((byte)(ADD_INIT+i)<<SHIFT));
kvn@4001	346	}
kvn@4001	347
kvn@4001	348	test_srlc_o(a0, a1);
kvn@4001	349	for (int i=0; i<ARRLEN; i++) {
kvn@4001	350	errn += verify("test_srlc_o: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>>SHIFT));
kvn@4001	351	}
kvn@4001	352	test_srlv(a0, a1, SHIFT);
kvn@4001	353	for (int i=0; i<ARRLEN; i++) {
kvn@4001	354	errn += verify("test_srlv_o: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>>SHIFT));
kvn@4001	355	}
kvn@4001	356
kvn@4001	357	test_srac_o(a0, a1);
kvn@4001	358	for (int i=0; i<ARRLEN; i++) {
kvn@4001	359	errn += verify("test_srac_o: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>SHIFT));
kvn@4001	360	}
kvn@4001	361	test_srav(a0, a1, SHIFT);
kvn@4001	362	for (int i=0; i<ARRLEN; i++) {
kvn@4001	363	errn += verify("test_srav_o: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>SHIFT));
kvn@4001	364	}
kvn@4001	365
kvn@4001	366	test_sllc_on(a0, a1);
kvn@4001	367	for (int i=0; i<ARRLEN; i++) {
kvn@4001	368	errn += verify("test_sllc_on: ", i, a0[i], (byte)((byte)(ADD_INIT+i)<<(-SHIFT)));
kvn@4001	369	}
kvn@4001	370	test_sllv(a0, a1, -SHIFT);
kvn@4001	371	for (int i=0; i<ARRLEN; i++) {
kvn@4001	372	errn += verify("test_sllv_on: ", i, a0[i], (byte)((byte)(ADD_INIT+i)<<(-SHIFT)));
kvn@4001	373	}
kvn@4001	374
kvn@4001	375	test_srlc_on(a0, a1);
kvn@4001	376	for (int i=0; i<ARRLEN; i++) {
kvn@4001	377	errn += verify("test_srlc_on: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>>(-SHIFT)));
kvn@4001	378	}
kvn@4001	379	test_srlv(a0, a1, -SHIFT);
kvn@4001	380	for (int i=0; i<ARRLEN; i++) {
kvn@4001	381	errn += verify("test_srlv_on: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>>(-SHIFT)));
kvn@4001	382	}
kvn@4001	383
kvn@4001	384	test_srac_on(a0, a1);
kvn@4001	385	for (int i=0; i<ARRLEN; i++) {
kvn@4001	386	errn += verify("test_srac_on: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>(-SHIFT)));
kvn@4001	387	}
kvn@4001	388	test_srav(a0, a1, -SHIFT);
kvn@4001	389	for (int i=0; i<ARRLEN; i++) {
kvn@4001	390	errn += verify("test_srav_on: ", i, a0[i], (byte)((byte)(ADD_INIT+i)>>(-SHIFT)));
kvn@4001	391	}
kvn@4001	392
kvn@4204	393	test_sllc_add(a0, a1);
kvn@4204	394	for (int i=0; i<ARRLEN; i++) {
kvn@4204	395	errn += verify("test_sllc_add: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) + ADD_INIT)<<VALUE));
kvn@4204	396	}
kvn@4204	397	test_sllv_add(a0, a1, ADD_INIT);
kvn@4204	398	for (int i=0; i<ARRLEN; i++) {
kvn@4204	399	errn += verify("test_sllv_add: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) + ADD_INIT)<<VALUE));
kvn@4204	400	}
kvn@4204	401
kvn@4204	402	test_srlc_add(a0, a1);
kvn@4204	403	for (int i=0; i<ARRLEN; i++) {
kvn@4204	404	errn += verify("test_srlc_add: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) + ADD_INIT)>>>VALUE));
kvn@4204	405	}
kvn@4204	406	test_srlv_add(a0, a1, ADD_INIT);
kvn@4204	407	for (int i=0; i<ARRLEN; i++) {
kvn@4204	408	errn += verify("test_srlv_add: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) + ADD_INIT)>>>VALUE));
kvn@4204	409	}
kvn@4204	410
kvn@4204	411	test_srac_add(a0, a1);
kvn@4204	412	for (int i=0; i<ARRLEN; i++) {
kvn@4204	413	errn += verify("test_srac_add: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) + ADD_INIT)>>VALUE));
kvn@4204	414	}
kvn@4204	415	test_srav_add(a0, a1, ADD_INIT);
kvn@4204	416	for (int i=0; i<ARRLEN; i++) {
kvn@4204	417	errn += verify("test_srav_add: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) + ADD_INIT)>>VALUE));
kvn@4204	418	}
kvn@4204	419
kvn@4204	420	test_sllc_and(a0, a1);
kvn@4204	421	for (int i=0; i<ARRLEN; i++) {
kvn@4204	422	errn += verify("test_sllc_and: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) & BIT_MASK)<<VALUE));
kvn@4204	423	}
kvn@4204	424	test_sllv_and(a0, a1, BIT_MASK);
kvn@4204	425	for (int i=0; i<ARRLEN; i++) {
kvn@4204	426	errn += verify("test_sllv_and: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) & BIT_MASK)<<VALUE));
kvn@4204	427	}
kvn@4204	428
kvn@4204	429	test_srlc_and(a0, a1);
kvn@4204	430	for (int i=0; i<ARRLEN; i++) {
kvn@4204	431	errn += verify("test_srlc_and: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) & BIT_MASK)>>>VALUE));
kvn@4204	432	}
kvn@4204	433	test_srlv_and(a0, a1, BIT_MASK);
kvn@4204	434	for (int i=0; i<ARRLEN; i++) {
kvn@4204	435	errn += verify("test_srlv_and: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) & BIT_MASK)>>>VALUE));
kvn@4204	436	}
kvn@4204	437
kvn@4204	438	test_srac_and(a0, a1);
kvn@4204	439	for (int i=0; i<ARRLEN; i++) {
kvn@4204	440	errn += verify("test_srac_and: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) & BIT_MASK)>>VALUE));
kvn@4204	441	}
kvn@4204	442	test_srav_and(a0, a1, BIT_MASK);
kvn@4204	443	for (int i=0; i<ARRLEN; i++) {
kvn@4204	444	errn += verify("test_srav_and: ", i, a0[i], (byte)(((byte)(ADD_INIT+i) & BIT_MASK)>>VALUE));
kvn@4204	445	}
kvn@4204	446
kvn@4001	447	test_pack2(p2, a1);
kvn@4001	448	for (int i=0; i<ARRLEN/2; i++) {
kvn@4001	449	errn += verify("test_pack2: ", i, p2[i], (short)(((short)(ADD_INIT+2*i) & 0xFF) | ((short)(ADD_INIT+2*i+1) << 8)));
kvn@4001	450	}
kvn@4001	451	for (int i=0; i<ARRLEN; i++) {
kvn@4001	452	a0[i] = -1;
kvn@4001	453	}
kvn@4001	454	test_unpack2(a0, p2);
kvn@4001	455	for (int i=0; i<(ARRLEN&(-2)); i++) {
kvn@4001	456	errn += verify("test_unpack2: ", i, a0[i], (byte)(ADD_INIT+i));
kvn@4001	457	}
kvn@4001	458
kvn@4001	459	test_pack2_swap(p2, a1);
kvn@4001	460	for (int i=0; i<ARRLEN/2; i++) {
kvn@4001	461	errn += verify("test_pack2_swap: ", i, p2[i], (short)(((short)(ADD_INIT+2*i+1) & 0xFF) | ((short)(ADD_INIT+2*i) << 8)));
kvn@4001	462	}
kvn@4001	463	for (int i=0; i<ARRLEN; i++) {
kvn@4001	464	a0[i] = -1;
kvn@4001	465	}
kvn@4001	466	test_unpack2_swap(a0, p2);
kvn@4001	467	for (int i=0; i<(ARRLEN&(-2)); i++) {
kvn@4001	468	errn += verify("test_unpack2_swap: ", i, a0[i], (byte)(ADD_INIT+i));
kvn@4001	469	}
kvn@4001	470
kvn@4001	471	test_pack4(p4, a1);
kvn@4001	472	for (int i=0; i<ARRLEN/4; i++) {
kvn@4001	473	errn += verify("test_pack4: ", i, p4[i], ((int)(ADD_INIT+4*i+0) & 0xFF) |
kvn@4001	474	(((int)(ADD_INIT+4*i+1) & 0xFF) << 8) |
kvn@4001	475	(((int)(ADD_INIT+4*i+2) & 0xFF) << 16) |
kvn@4001	476	(((int)(ADD_INIT+4*i+3) & 0xFF) << 24));
kvn@4001	477	}
kvn@4001	478	for (int i=0; i<ARRLEN; i++) {
kvn@4001	479	a0[i] = -1;
kvn@4001	480	}
kvn@4001	481	test_unpack4(a0, p4);
kvn@4001	482	for (int i=0; i<(ARRLEN&(-4)); i++) {
kvn@4001	483	errn += verify("test_unpack4: ", i, a0[i], (byte)(ADD_INIT+i));
kvn@4001	484	}
kvn@4001	485
kvn@4001	486	test_pack4_swap(p4, a1);
kvn@4001	487	for (int i=0; i<ARRLEN/4; i++) {
kvn@4001	488	errn += verify("test_pack4_swap: ", i, p4[i], ((int)(ADD_INIT+4*i+3) & 0xFF) |
kvn@4001	489	(((int)(ADD_INIT+4*i+2) & 0xFF) << 8) |
kvn@4001	490	(((int)(ADD_INIT+4*i+1) & 0xFF) << 16) |
kvn@4001	491	(((int)(ADD_INIT+4*i+0) & 0xFF) << 24));
kvn@4001	492	}
kvn@4001	493	for (int i=0; i<ARRLEN; i++) {
kvn@4001	494	a0[i] = -1;
kvn@4001	495	}
kvn@4001	496	test_unpack4_swap(a0, p4);
kvn@4001	497	for (int i=0; i<(ARRLEN&(-4)); i++) {
kvn@4001	498	errn += verify("test_unpack4_swap: ", i, a0[i], (byte)(ADD_INIT+i));
kvn@4001	499	}
kvn@4001	500
kvn@4001	501	test_pack8(p8, a1);
kvn@4001	502	for (int i=0; i<ARRLEN/8; i++) {
kvn@4001	503	errn += verify("test_pack8: ", i, p8[i], ((long)(ADD_INIT+8*i+0) & 0xFFl) |
kvn@4001	504	(((long)(ADD_INIT+8*i+1) & 0xFFl) << 8) |
kvn@4001	505	(((long)(ADD_INIT+8*i+2) & 0xFFl) << 16) |
kvn@4001	506	(((long)(ADD_INIT+8*i+3) & 0xFFl) << 24) |
kvn@4001	507	(((long)(ADD_INIT+8*i+4) & 0xFFl) << 32) |
kvn@4001	508	(((long)(ADD_INIT+8*i+5) & 0xFFl) << 40) |
kvn@4001	509	(((long)(ADD_INIT+8*i+6) & 0xFFl) << 48) |
kvn@4001	510	(((long)(ADD_INIT+8*i+7) & 0xFFl) << 56));
kvn@4001	511	}
kvn@4001	512	for (int i=0; i<ARRLEN; i++) {
kvn@4001	513	a0[i] = -1;
kvn@4001	514	}
kvn@4001	515	test_unpack8(a0, p8);
kvn@4001	516	for (int i=0; i<(ARRLEN&(-8)); i++) {
kvn@4001	517	errn += verify("test_unpack8: ", i, a0[i], (byte)(ADD_INIT+i));
kvn@4001	518	}
kvn@4001	519
kvn@4001	520	test_pack8_swap(p8, a1);
kvn@4001	521	for (int i=0; i<ARRLEN/8; i++) {
kvn@4001	522	errn += verify("test_pack8_swap: ", i, p8[i], ((long)(ADD_INIT+8*i+7) & 0xFFl) |
kvn@4001	523	(((long)(ADD_INIT+8*i+6) & 0xFFl) << 8) |
kvn@4001	524	(((long)(ADD_INIT+8*i+5) & 0xFFl) << 16) |
kvn@4001	525	(((long)(ADD_INIT+8*i+4) & 0xFFl) << 24) |
kvn@4001	526	(((long)(ADD_INIT+8*i+3) & 0xFFl) << 32) |
kvn@4001	527	(((long)(ADD_INIT+8*i+2) & 0xFFl) << 40) |
kvn@4001	528	(((long)(ADD_INIT+8*i+1) & 0xFFl) << 48) |
kvn@4001	529	(((long)(ADD_INIT+8*i+0) & 0xFFl) << 56));
kvn@4001	530	}
kvn@4001	531	for (int i=0; i<ARRLEN; i++) {
kvn@4001	532	a0[i] = -1;
kvn@4001	533	}
kvn@4001	534	test_unpack8_swap(a0, p8);
kvn@4001	535	for (int i=0; i<(ARRLEN&(-8)); i++) {
kvn@4001	536	errn += verify("test_unpack8_swap: ", i, a0[i], (byte)(ADD_INIT+i));
kvn@4001	537	}
kvn@4001	538
kvn@4001	539	}
kvn@4001	540
kvn@4001	541	if (errn > 0)
kvn@4001	542	return errn;
kvn@4001	543
kvn@4001	544	System.out.println("Time");
kvn@4001	545	long start, end;
kvn@4001	546
kvn@4001	547	start = System.currentTimeMillis();
kvn@4001	548	for (int i=0; i<ITERS; i++) {
kvn@4001	549	test_sum(a1);
kvn@4001	550	}
kvn@4001	551	end = System.currentTimeMillis();
kvn@4001	552	System.out.println("test_sum: " + (end - start));
kvn@4001	553
kvn@4001	554	start = System.currentTimeMillis();
kvn@4001	555	for (int i=0; i<ITERS; i++) {
kvn@4001	556	test_addc(a0, a1);
kvn@4001	557	}
kvn@4001	558	end = System.currentTimeMillis();
kvn@4001	559	System.out.println("test_addc: " + (end - start));
kvn@4001	560	start = System.currentTimeMillis();
kvn@4001	561	for (int i=0; i<ITERS; i++) {
kvn@4001	562	test_addv(a0, a1, (byte)VALUE);
kvn@4001	563	}
kvn@4001	564	end = System.currentTimeMillis();
kvn@4001	565	System.out.println("test_addv: " + (end - start));
kvn@4001	566	start = System.currentTimeMillis();
kvn@4001	567	for (int i=0; i<ITERS; i++) {
kvn@4001	568	test_adda(a0, a1, a2);
kvn@4001	569	}
kvn@4001	570	end = System.currentTimeMillis();
kvn@4001	571	System.out.println("test_adda: " + (end - start));
kvn@4001	572
kvn@4001	573	start = System.currentTimeMillis();
kvn@4001	574	for (int i=0; i<ITERS; i++) {
kvn@4001	575	test_subc(a0, a1);
kvn@4001	576	}
kvn@4001	577	end = System.currentTimeMillis();
kvn@4001	578	System.out.println("test_subc: " + (end - start));
kvn@4001	579	start = System.currentTimeMillis();
kvn@4001	580	for (int i=0; i<ITERS; i++) {
kvn@4001	581	test_subv(a0, a1, (byte)VALUE);
kvn@4001	582	}
kvn@4001	583	end = System.currentTimeMillis();
kvn@4001	584	System.out.println("test_subv: " + (end - start));
kvn@4001	585	start = System.currentTimeMillis();
kvn@4001	586	for (int i=0; i<ITERS; i++) {
kvn@4001	587	test_suba(a0, a1, a2);
kvn@4001	588	}
kvn@4001	589	end = System.currentTimeMillis();
kvn@4001	590	System.out.println("test_suba: " + (end - start));
kvn@4001	591
kvn@4001	592	start = System.currentTimeMillis();
kvn@4001	593	for (int i=0; i<ITERS; i++) {
kvn@4001	594	test_mulc(a0, a1);
kvn@4001	595	}
kvn@4001	596	end = System.currentTimeMillis();
kvn@4001	597	System.out.println("test_mulc: " + (end - start));
kvn@4001	598	start = System.currentTimeMillis();
kvn@4001	599	for (int i=0; i<ITERS; i++) {
kvn@4001	600	test_mulv(a0, a1, (byte)VALUE);
kvn@4001	601	}
kvn@4001	602	end = System.currentTimeMillis();
kvn@4001	603	System.out.println("test_mulv: " + (end - start));
kvn@4001	604	start = System.currentTimeMillis();
kvn@4001	605	for (int i=0; i<ITERS; i++) {
kvn@4001	606	test_mula(a0, a1, a2);
kvn@4001	607	}
kvn@4001	608	end = System.currentTimeMillis();
kvn@4001	609	System.out.println("test_mula: " + (end - start));
kvn@4001	610
kvn@4001	611	start = System.currentTimeMillis();
kvn@4001	612	for (int i=0; i<ITERS; i++) {
kvn@4001	613	test_divc(a0, a1);
kvn@4001	614	}
kvn@4001	615	end = System.currentTimeMillis();
kvn@4001	616	System.out.println("test_divc: " + (end - start));
kvn@4001	617	start = System.currentTimeMillis();
kvn@4001	618	for (int i=0; i<ITERS; i++) {
kvn@4001	619	test_divv(a0, a1, (byte)VALUE);
kvn@4001	620	}
kvn@4001	621	end = System.currentTimeMillis();
kvn@4001	622	System.out.println("test_divv: " + (end - start));
kvn@4001	623	start = System.currentTimeMillis();
kvn@4001	624	for (int i=0; i<ITERS; i++) {
kvn@4001	625	test_diva(a0, a1, a2);
kvn@4001	626	}
kvn@4001	627	end = System.currentTimeMillis();
kvn@4001	628	System.out.println("test_diva: " + (end - start));
kvn@4001	629
kvn@4001	630	start = System.currentTimeMillis();
kvn@4001	631	for (int i=0; i<ITERS; i++) {
kvn@4001	632	test_mulc_n(a0, a1);
kvn@4001	633	}
kvn@4001	634	end = System.currentTimeMillis();
kvn@4001	635	System.out.println("test_mulc_n: " + (end - start));
kvn@4001	636	start = System.currentTimeMillis();
kvn@4001	637	for (int i=0; i<ITERS; i++) {
kvn@4001	638	test_mulv(a0, a1, (byte)-VALUE);
kvn@4001	639	}
kvn@4001	640	end = System.currentTimeMillis();
kvn@4001	641	System.out.println("test_mulv_n: " + (end - start));
kvn@4001	642	start = System.currentTimeMillis();
kvn@4001	643	for (int i=0; i<ITERS; i++) {
kvn@4001	644	test_mula(a0, a1, a3);
kvn@4001	645	}
kvn@4001	646	end = System.currentTimeMillis();
kvn@4001	647	System.out.println("test_mula_n: " + (end - start));
kvn@4001	648
kvn@4001	649	start = System.currentTimeMillis();
kvn@4001	650	for (int i=0; i<ITERS; i++) {
kvn@4001	651	test_divc_n(a0, a1);
kvn@4001	652	}
kvn@4001	653	end = System.currentTimeMillis();
kvn@4001	654	System.out.println("test_divc_n: " + (end - start));
kvn@4001	655	start = System.currentTimeMillis();
kvn@4001	656	for (int i=0; i<ITERS; i++) {
kvn@4001	657	test_divv(a0, a1, (byte)-VALUE);
kvn@4001	658	}
kvn@4001	659	end = System.currentTimeMillis();
kvn@4001	660	System.out.println("test_divv_n: " + (end - start));
kvn@4001	661	start = System.currentTimeMillis();
kvn@4001	662	for (int i=0; i<ITERS; i++) {
kvn@4001	663	test_diva(a0, a1, a3);
kvn@4001	664	}
kvn@4001	665	end = System.currentTimeMillis();
kvn@4001	666	System.out.println("test_diva_n: " + (end - start));
kvn@4001	667
kvn@4001	668	start = System.currentTimeMillis();
kvn@4001	669	for (int i=0; i<ITERS; i++) {
kvn@4001	670	test_andc(a0, a1);
kvn@4001	671	}
kvn@4001	672	end = System.currentTimeMillis();
kvn@4001	673	System.out.println("test_andc: " + (end - start));
kvn@4001	674	start = System.currentTimeMillis();
kvn@4001	675	for (int i=0; i<ITERS; i++) {
kvn@4001	676	test_andv(a0, a1, (byte)BIT_MASK);
kvn@4001	677	}
kvn@4001	678	end = System.currentTimeMillis();
kvn@4001	679	System.out.println("test_andv: " + (end - start));
kvn@4001	680	start = System.currentTimeMillis();
kvn@4001	681	for (int i=0; i<ITERS; i++) {
kvn@4001	682	test_anda(a0, a1, a4);
kvn@4001	683	}
kvn@4001	684	end = System.currentTimeMillis();
kvn@4001	685	System.out.println("test_anda: " + (end - start));
kvn@4001	686
kvn@4001	687	start = System.currentTimeMillis();
kvn@4001	688	for (int i=0; i<ITERS; i++) {
kvn@4001	689	test_orc(a0, a1);
kvn@4001	690	}
kvn@4001	691	end = System.currentTimeMillis();
kvn@4001	692	System.out.println("test_orc: " + (end - start));
kvn@4001	693	start = System.currentTimeMillis();
kvn@4001	694	for (int i=0; i<ITERS; i++) {
kvn@4001	695	test_orv(a0, a1, (byte)BIT_MASK);
kvn@4001	696	}
kvn@4001	697	end = System.currentTimeMillis();
kvn@4001	698	System.out.println("test_orv: " + (end - start));
kvn@4001	699	start = System.currentTimeMillis();
kvn@4001	700	for (int i=0; i<ITERS; i++) {
kvn@4001	701	test_ora(a0, a1, a4);
kvn@4001	702	}
kvn@4001	703	end = System.currentTimeMillis();
kvn@4001	704	System.out.println("test_ora: " + (end - start));
kvn@4001	705
kvn@4001	706	start = System.currentTimeMillis();
kvn@4001	707	for (int i=0; i<ITERS; i++) {
kvn@4001	708	test_xorc(a0, a1);
kvn@4001	709	}
kvn@4001	710	end = System.currentTimeMillis();
kvn@4001	711	System.out.println("test_xorc: " + (end - start));
kvn@4001	712	start = System.currentTimeMillis();
kvn@4001	713	for (int i=0; i<ITERS; i++) {
kvn@4001	714	test_xorv(a0, a1, (byte)BIT_MASK);
kvn@4001	715	}
kvn@4001	716	end = System.currentTimeMillis();
kvn@4001	717	System.out.println("test_xorv: " + (end - start));
kvn@4001	718	start = System.currentTimeMillis();
kvn@4001	719	for (int i=0; i<ITERS; i++) {
kvn@4001	720	test_xora(a0, a1, a4);
kvn@4001	721	}
kvn@4001	722	end = System.currentTimeMillis();
kvn@4001	723	System.out.println("test_xora: " + (end - start));
kvn@4001	724
kvn@4001	725	start = System.currentTimeMillis();
kvn@4001	726	for (int i=0; i<ITERS; i++) {
kvn@4001	727	test_sllc(a0, a1);
kvn@4001	728	}
kvn@4001	729	end = System.currentTimeMillis();
kvn@4001	730	System.out.println("test_sllc: " + (end - start));
kvn@4001	731	start = System.currentTimeMillis();
kvn@4001	732	for (int i=0; i<ITERS; i++) {
kvn@4001	733	test_sllv(a0, a1, VALUE);
kvn@4001	734	}
kvn@4001	735	end = System.currentTimeMillis();
kvn@4001	736	System.out.println("test_sllv: " + (end - start));
kvn@4001	737
kvn@4001	738	start = System.currentTimeMillis();
kvn@4001	739	for (int i=0; i<ITERS; i++) {
kvn@4001	740	test_srlc(a0, a1);
kvn@4001	741	}
kvn@4001	742	end = System.currentTimeMillis();
kvn@4001	743	System.out.println("test_srlc: " + (end - start));
kvn@4001	744	start = System.currentTimeMillis();
kvn@4001	745	for (int i=0; i<ITERS; i++) {
kvn@4001	746	test_srlv(a0, a1, VALUE);
kvn@4001	747	}
kvn@4001	748	end = System.currentTimeMillis();
kvn@4001	749	System.out.println("test_srlv: " + (end - start));
kvn@4001	750
kvn@4001	751	start = System.currentTimeMillis();
kvn@4001	752	for (int i=0; i<ITERS; i++) {
kvn@4001	753	test_srac(a0, a1);
kvn@4001	754	}
kvn@4001	755	end = System.currentTimeMillis();
kvn@4001	756	System.out.println("test_srac: " + (end - start));
kvn@4001	757	start = System.currentTimeMillis();
kvn@4001	758	for (int i=0; i<ITERS; i++) {
kvn@4001	759	test_srav(a0, a1, VALUE);
kvn@4001	760	}
kvn@4001	761	end = System.currentTimeMillis();
kvn@4001	762	System.out.println("test_srav: " + (end - start));
kvn@4001	763
kvn@4001	764	start = System.currentTimeMillis();
kvn@4001	765	for (int i=0; i<ITERS; i++) {
kvn@4001	766	test_sllc_n(a0, a1);
kvn@4001	767	}
kvn@4001	768	end = System.currentTimeMillis();
kvn@4001	769	System.out.println("test_sllc_n: " + (end - start));
kvn@4001	770	start = System.currentTimeMillis();
kvn@4001	771	for (int i=0; i<ITERS; i++) {
kvn@4001	772	test_sllv(a0, a1, -VALUE);
kvn@4001	773	}
kvn@4001	774	end = System.currentTimeMillis();
kvn@4001	775	System.out.println("test_sllv_n: " + (end - start));
kvn@4001	776
kvn@4001	777	start = System.currentTimeMillis();
kvn@4001	778	for (int i=0; i<ITERS; i++) {
kvn@4001	779	test_srlc_n(a0, a1);
kvn@4001	780	}
kvn@4001	781	end = System.currentTimeMillis();
kvn@4001	782	System.out.println("test_srlc_n: " + (end - start));
kvn@4001	783	start = System.currentTimeMillis();
kvn@4001	784	for (int i=0; i<ITERS; i++) {
kvn@4001	785	test_srlv(a0, a1, -VALUE);
kvn@4001	786	}
kvn@4001	787	end = System.currentTimeMillis();
kvn@4001	788	System.out.println("test_srlv_n: " + (end - start));
kvn@4001	789
kvn@4001	790	start = System.currentTimeMillis();
kvn@4001	791	for (int i=0; i<ITERS; i++) {
kvn@4001	792	test_srac_n(a0, a1);
kvn@4001	793	}
kvn@4001	794	end = System.currentTimeMillis();
kvn@4001	795	System.out.println("test_srac_n: " + (end - start));
kvn@4001	796	start = System.currentTimeMillis();
kvn@4001	797	for (int i=0; i<ITERS; i++) {
kvn@4001	798	test_srav(a0, a1, -VALUE);
kvn@4001	799	}
kvn@4001	800	end = System.currentTimeMillis();
kvn@4001	801	System.out.println("test_srav_n: " + (end - start));
kvn@4001	802
kvn@4001	803	start = System.currentTimeMillis();
kvn@4001	804	for (int i=0; i<ITERS; i++) {
kvn@4001	805	test_sllc_o(a0, a1);
kvn@4001	806	}
kvn@4001	807	end = System.currentTimeMillis();
kvn@4001	808	System.out.println("test_sllc_o: " + (end - start));
kvn@4001	809	start = System.currentTimeMillis();
kvn@4001	810	for (int i=0; i<ITERS; i++) {
kvn@4001	811	test_sllv(a0, a1, SHIFT);
kvn@4001	812	}
kvn@4001	813	end = System.currentTimeMillis();
kvn@4001	814	System.out.println("test_sllv_o: " + (end - start));
kvn@4001	815
kvn@4001	816	start = System.currentTimeMillis();
kvn@4001	817	for (int i=0; i<ITERS; i++) {
kvn@4001	818	test_srlc_o(a0, a1);
kvn@4001	819	}
kvn@4001	820	end = System.currentTimeMillis();
kvn@4001	821	System.out.println("test_srlc_o: " + (end - start));
kvn@4001	822	start = System.currentTimeMillis();
kvn@4001	823	for (int i=0; i<ITERS; i++) {
kvn@4001	824	test_srlv(a0, a1, SHIFT);
kvn@4001	825	}
kvn@4001	826	end = System.currentTimeMillis();
kvn@4001	827	System.out.println("test_srlv_o: " + (end - start));
kvn@4001	828
kvn@4001	829	start = System.currentTimeMillis();
kvn@4001	830	for (int i=0; i<ITERS; i++) {
kvn@4001	831	test_srac_o(a0, a1);
kvn@4001	832	}
kvn@4001	833	end = System.currentTimeMillis();
kvn@4001	834	System.out.println("test_srac_o: " + (end - start));
kvn@4001	835	start = System.currentTimeMillis();
kvn@4001	836	for (int i=0; i<ITERS; i++) {
kvn@4001	837	test_srav(a0, a1, SHIFT);
kvn@4001	838	}
kvn@4001	839	end = System.currentTimeMillis();
kvn@4001	840	System.out.println("test_srav_o: " + (end - start));
kvn@4001	841
kvn@4001	842	start = System.currentTimeMillis();
kvn@4001	843	for (int i=0; i<ITERS; i++) {
kvn@4001	844	test_sllc_on(a0, a1);
kvn@4001	845	}
kvn@4001	846	end = System.currentTimeMillis();
kvn@4001	847	System.out.println("test_sllc_on: " + (end - start));
kvn@4001	848	start = System.currentTimeMillis();
kvn@4001	849	for (int i=0; i<ITERS; i++) {
kvn@4001	850	test_sllv(a0, a1, -SHIFT);
kvn@4001	851	}
kvn@4001	852	end = System.currentTimeMillis();
kvn@4001	853	System.out.println("test_sllv_on: " + (end - start));
kvn@4001	854
kvn@4001	855	start = System.currentTimeMillis();
kvn@4001	856	for (int i=0; i<ITERS; i++) {
kvn@4001	857	test_srlc_on(a0, a1);
kvn@4001	858	}
kvn@4001	859	end = System.currentTimeMillis();
kvn@4001	860	System.out.println("test_srlc_on: " + (end - start));
kvn@4001	861	start = System.currentTimeMillis();
kvn@4001	862	for (int i=0; i<ITERS; i++) {
kvn@4001	863	test_srlv(a0, a1, -SHIFT);
kvn@4001	864	}
kvn@4001	865	end = System.currentTimeMillis();
kvn@4001	866	System.out.println("test_srlv_on: " + (end - start));
kvn@4001	867
kvn@4001	868	start = System.currentTimeMillis();
kvn@4001	869	for (int i=0; i<ITERS; i++) {
kvn@4001	870	test_srac_on(a0, a1);
kvn@4001	871	}
kvn@4001	872	end = System.currentTimeMillis();
kvn@4001	873	System.out.println("test_srac_on: " + (end - start));
kvn@4001	874	start = System.currentTimeMillis();
kvn@4001	875	for (int i=0; i<ITERS; i++) {
kvn@4001	876	test_srav(a0, a1, -SHIFT);
kvn@4001	877	}
kvn@4001	878	end = System.currentTimeMillis();
kvn@4001	879	System.out.println("test_srav_on: " + (end - start));
kvn@4001	880
kvn@4001	881	start = System.currentTimeMillis();
kvn@4001	882	for (int i=0; i<ITERS; i++) {
kvn@4204	883	test_sllc_add(a0, a1);
kvn@4204	884	}
kvn@4204	885	end = System.currentTimeMillis();
kvn@4204	886	System.out.println("test_sllc_add: " + (end - start));
kvn@4204	887	start = System.currentTimeMillis();
kvn@4204	888	for (int i=0; i<ITERS; i++) {
kvn@4204	889	test_sllv_add(a0, a1, ADD_INIT);
kvn@4204	890	}
kvn@4204	891	end = System.currentTimeMillis();
kvn@4204	892	System.out.println("test_sllv_add: " + (end - start));
kvn@4204	893
kvn@4204	894	start = System.currentTimeMillis();
kvn@4204	895	for (int i=0; i<ITERS; i++) {
kvn@4204	896	test_srlc_add(a0, a1);
kvn@4204	897	}
kvn@4204	898	end = System.currentTimeMillis();
kvn@4204	899	System.out.println("test_srlc_add: " + (end - start));
kvn@4204	900	start = System.currentTimeMillis();
kvn@4204	901	for (int i=0; i<ITERS; i++) {
kvn@4204	902	test_srlv_add(a0, a1, ADD_INIT);
kvn@4204	903	}
kvn@4204	904	end = System.currentTimeMillis();
kvn@4204	905	System.out.println("test_srlv_add: " + (end - start));
kvn@4204	906
kvn@4204	907	start = System.currentTimeMillis();
kvn@4204	908	for (int i=0; i<ITERS; i++) {
kvn@4204	909	test_srac_add(a0, a1);
kvn@4204	910	}
kvn@4204	911	end = System.currentTimeMillis();
kvn@4204	912	System.out.println("test_srac_add: " + (end - start));
kvn@4204	913	start = System.currentTimeMillis();
kvn@4204	914	for (int i=0; i<ITERS; i++) {
kvn@4204	915	test_srav_add(a0, a1, ADD_INIT);
kvn@4204	916	}
kvn@4204	917	end = System.currentTimeMillis();
kvn@4204	918	System.out.println("test_srav_add: " + (end - start));
kvn@4204	919
kvn@4204	920	start = System.currentTimeMillis();
kvn@4204	921	for (int i=0; i<ITERS; i++) {
kvn@4204	922	test_sllc_and(a0, a1);
kvn@4204	923	}
kvn@4204	924	end = System.currentTimeMillis();
kvn@4204	925	System.out.println("test_sllc_and: " + (end - start));
kvn@4204	926	start = System.currentTimeMillis();
kvn@4204	927	for (int i=0; i<ITERS; i++) {
kvn@4204	928	test_sllv_and(a0, a1, BIT_MASK);
kvn@4204	929	}
kvn@4204	930	end = System.currentTimeMillis();
kvn@4204	931	System.out.println("test_sllv_and: " + (end - start));
kvn@4204	932
kvn@4204	933	start = System.currentTimeMillis();
kvn@4204	934	for (int i=0; i<ITERS; i++) {
kvn@4204	935	test_srlc_and(a0, a1);
kvn@4204	936	}
kvn@4204	937	end = System.currentTimeMillis();
kvn@4204	938	System.out.println("test_srlc_and: " + (end - start));
kvn@4204	939	start = System.currentTimeMillis();
kvn@4204	940	for (int i=0; i<ITERS; i++) {
kvn@4204	941	test_srlv_and(a0, a1, BIT_MASK);
kvn@4204	942	}
kvn@4204	943	end = System.currentTimeMillis();
kvn@4204	944	System.out.println("test_srlv_and: " + (end - start));
kvn@4204	945
kvn@4204	946	start = System.currentTimeMillis();
kvn@4204	947	for (int i=0; i<ITERS; i++) {
kvn@4204	948	test_srac_and(a0, a1);
kvn@4204	949	}
kvn@4204	950	end = System.currentTimeMillis();
kvn@4204	951	System.out.println("test_srac_and: " + (end - start));
kvn@4204	952	start = System.currentTimeMillis();
kvn@4204	953	for (int i=0; i<ITERS; i++) {
kvn@4204	954	test_srav_and(a0, a1, BIT_MASK);
kvn@4204	955	}
kvn@4204	956	end = System.currentTimeMillis();
kvn@4204	957	System.out.println("test_srav_and: " + (end - start));
kvn@4204	958
kvn@4204	959	start = System.currentTimeMillis();
kvn@4204	960	for (int i=0; i<ITERS; i++) {
kvn@4001	961	test_pack2(p2, a1);
kvn@4001	962	}
kvn@4001	963	end = System.currentTimeMillis();
kvn@4001	964	System.out.println("test_pack2: " + (end - start));
kvn@4001	965	start = System.currentTimeMillis();
kvn@4001	966	for (int i=0; i<ITERS; i++) {
kvn@4001	967	test_unpack2(a0, p2);
kvn@4001	968	}
kvn@4001	969	end = System.currentTimeMillis();
kvn@4001	970	System.out.println("test_unpack2: " + (end - start));
kvn@4001	971	start = System.currentTimeMillis();
kvn@4001	972	for (int i=0; i<ITERS; i++) {
kvn@4001	973	test_pack2_swap(p2, a1);
kvn@4001	974	}
kvn@4001	975	end = System.currentTimeMillis();
kvn@4001	976	System.out.println("test_pack2_swap: " + (end - start));
kvn@4001	977	start = System.currentTimeMillis();
kvn@4001	978	for (int i=0; i<ITERS; i++) {
kvn@4001	979	test_unpack2_swap(a0, p2);
kvn@4001	980	}
kvn@4001	981	end = System.currentTimeMillis();
kvn@4001	982	System.out.println("test_unpack2_swap: " + (end - start));
kvn@4001	983
kvn@4001	984	start = System.currentTimeMillis();
kvn@4001	985	for (int i=0; i<ITERS; i++) {
kvn@4001	986	test_pack4(p4, a1);
kvn@4001	987	}
kvn@4001	988	end = System.currentTimeMillis();
kvn@4001	989	System.out.println("test_pack4: " + (end - start));
kvn@4001	990	start = System.currentTimeMillis();
kvn@4001	991	for (int i=0; i<ITERS; i++) {
kvn@4001	992	test_unpack4(a0, p4);
kvn@4001	993	}
kvn@4001	994	end = System.currentTimeMillis();
kvn@4001	995	System.out.println("test_unpack4: " + (end - start));
kvn@4001	996	start = System.currentTimeMillis();
kvn@4001	997	for (int i=0; i<ITERS; i++) {
kvn@4001	998	test_pack4_swap(p4, a1);
kvn@4001	999	}
kvn@4001	1000	end = System.currentTimeMillis();
kvn@4001	1001	System.out.println("test_pack4_swap: " + (end - start));
kvn@4001	1002	start = System.currentTimeMillis();
kvn@4001	1003	for (int i=0; i<ITERS; i++) {
kvn@4001	1004	test_unpack4_swap(a0, p4);
kvn@4001	1005	}
kvn@4001	1006	end = System.currentTimeMillis();
kvn@4001	1007	System.out.println("test_unpack4_swap: " + (end - start));
kvn@4001	1008
kvn@4001	1009	start = System.currentTimeMillis();
kvn@4001	1010	for (int i=0; i<ITERS; i++) {
kvn@4001	1011	test_pack8(p8, a1);
kvn@4001	1012	}
kvn@4001	1013	end = System.currentTimeMillis();
kvn@4001	1014	System.out.println("test_pack8: " + (end - start));
kvn@4001	1015	start = System.currentTimeMillis();
kvn@4001	1016	for (int i=0; i<ITERS; i++) {
kvn@4001	1017	test_unpack8(a0, p8);
kvn@4001	1018	}
kvn@4001	1019	end = System.currentTimeMillis();
kvn@4001	1020	System.out.println("test_unpack8: " + (end - start));
kvn@4001	1021	start = System.currentTimeMillis();
kvn@4001	1022	for (int i=0; i<ITERS; i++) {
kvn@4001	1023	test_pack8_swap(p8, a1);
kvn@4001	1024	}
kvn@4001	1025	end = System.currentTimeMillis();
kvn@4001	1026	System.out.println("test_pack8_swap: " + (end - start));
kvn@4001	1027	start = System.currentTimeMillis();
kvn@4001	1028	for (int i=0; i<ITERS; i++) {
kvn@4001	1029	test_unpack8_swap(a0, p8);
kvn@4001	1030	}
kvn@4001	1031	end = System.currentTimeMillis();
kvn@4001	1032	System.out.println("test_unpack8_swap: " + (end - start));
kvn@4001	1033
kvn@4001	1034	return errn;
kvn@4001	1035	}
kvn@4001	1036
kvn@4001	1037	static int test_sum(byte[] a1) {
kvn@4001	1038	int sum = 0;
kvn@4001	1039	for (int i = 0; i < a1.length; i+=1) {
kvn@4001	1040	sum += a1[i];
kvn@4001	1041	}
kvn@4001	1042	return sum;
kvn@4001	1043	}
kvn@4001	1044
kvn@4001	1045	static void test_addc(byte[] a0, byte[] a1) {
kvn@4001	1046	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1047	a0[i] = (byte)(a1[i]+VALUE);
kvn@4001	1048	}
kvn@4001	1049	}
kvn@4001	1050	static void test_addv(byte[] a0, byte[] a1, byte b) {
kvn@4001	1051	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1052	a0[i] = (byte)(a1[i]+b);
kvn@4001	1053	}
kvn@4001	1054	}
kvn@4001	1055	static void test_adda(byte[] a0, byte[] a1, byte[] a2) {
kvn@4001	1056	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1057	a0[i] = (byte)(a1[i]+a2[i]);
kvn@4001	1058	}
kvn@4001	1059	}
kvn@4001	1060
kvn@4001	1061	static void test_subc(byte[] a0, byte[] a1) {
kvn@4001	1062	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1063	a0[i] = (byte)(a1[i]-VALUE);
kvn@4001	1064	}
kvn@4001	1065	}
kvn@4001	1066	static void test_subv(byte[] a0, byte[] a1, byte b) {
kvn@4001	1067	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1068	a0[i] = (byte)(a1[i]-b);
kvn@4001	1069	}
kvn@4001	1070	}
kvn@4001	1071	static void test_suba(byte[] a0, byte[] a1, byte[] a2) {
kvn@4001	1072	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1073	a0[i] = (byte)(a1[i]-a2[i]);
kvn@4001	1074	}
kvn@4001	1075	}
kvn@4001	1076
kvn@4001	1077	static void test_mulc(byte[] a0, byte[] a1) {
kvn@4001	1078	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1079	a0[i] = (byte)(a1[i]*VALUE);
kvn@4001	1080	}
kvn@4001	1081	}
kvn@4001	1082	static void test_mulc_n(byte[] a0, byte[] a1) {
kvn@4001	1083	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1084	a0[i] = (byte)(a1[i]*(-VALUE));
kvn@4001	1085	}
kvn@4001	1086	}
kvn@4001	1087	static void test_mulv(byte[] a0, byte[] a1, byte b) {
kvn@4001	1088	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1089	a0[i] = (byte)(a1[i]*b);
kvn@4001	1090	}
kvn@4001	1091	}
kvn@4001	1092	static void test_mula(byte[] a0, byte[] a1, byte[] a2) {
kvn@4001	1093	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1094	a0[i] = (byte)(a1[i]*a2[i]);
kvn@4001	1095	}
kvn@4001	1096	}
kvn@4001	1097
kvn@4001	1098	static void test_divc(byte[] a0, byte[] a1) {
kvn@4001	1099	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1100	a0[i] = (byte)(a1[i]/VALUE);
kvn@4001	1101	}
kvn@4001	1102	}
kvn@4001	1103	static void test_divc_n(byte[] a0, byte[] a1) {
kvn@4001	1104	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1105	a0[i] = (byte)(a1[i]/(-VALUE));
kvn@4001	1106	}
kvn@4001	1107	}
kvn@4001	1108	static void test_divv(byte[] a0, byte[] a1, byte b) {
kvn@4001	1109	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1110	a0[i] = (byte)(a1[i]/b);
kvn@4001	1111	}
kvn@4001	1112	}
kvn@4001	1113	static void test_diva(byte[] a0, byte[] a1, byte[] a2) {
kvn@4001	1114	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1115	a0[i] = (byte)(a1[i]/a2[i]);
kvn@4001	1116	}
kvn@4001	1117	}
kvn@4001	1118
kvn@4001	1119	static void test_andc(byte[] a0, byte[] a1) {
kvn@4001	1120	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1121	a0[i] = (byte)(a1[i]&BIT_MASK);
kvn@4001	1122	}
kvn@4001	1123	}
kvn@4001	1124	static void test_andv(byte[] a0, byte[] a1, byte b) {
kvn@4001	1125	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1126	a0[i] = (byte)(a1[i]&b);
kvn@4001	1127	}
kvn@4001	1128	}
kvn@4001	1129	static void test_anda(byte[] a0, byte[] a1, byte[] a2) {
kvn@4001	1130	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1131	a0[i] = (byte)(a1[i]&a2[i]);
kvn@4001	1132	}
kvn@4001	1133	}
kvn@4001	1134
kvn@4001	1135	static void test_orc(byte[] a0, byte[] a1) {
kvn@4001	1136	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1137	a0[i] = (byte)(a1[i]|BIT_MASK);
kvn@4001	1138	}
kvn@4001	1139	}
kvn@4001	1140	static void test_orv(byte[] a0, byte[] a1, byte b) {
kvn@4001	1141	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1142	a0[i] = (byte)(a1[i]|b);
kvn@4001	1143	}
kvn@4001	1144	}
kvn@4001	1145	static void test_ora(byte[] a0, byte[] a1, byte[] a2) {
kvn@4001	1146	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1147	a0[i] = (byte)(a1[i]|a2[i]);
kvn@4001	1148	}
kvn@4001	1149	}
kvn@4001	1150
kvn@4001	1151	static void test_xorc(byte[] a0, byte[] a1) {
kvn@4001	1152	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1153	a0[i] = (byte)(a1[i]^BIT_MASK);
kvn@4001	1154	}
kvn@4001	1155	}
kvn@4001	1156	static void test_xorv(byte[] a0, byte[] a1, byte b) {
kvn@4001	1157	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1158	a0[i] = (byte)(a1[i]^b);
kvn@4001	1159	}
kvn@4001	1160	}
kvn@4001	1161	static void test_xora(byte[] a0, byte[] a1, byte[] a2) {
kvn@4001	1162	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1163	a0[i] = (byte)(a1[i]^a2[i]);
kvn@4001	1164	}
kvn@4001	1165	}
kvn@4001	1166
kvn@4001	1167	static void test_sllc(byte[] a0, byte[] a1) {
kvn@4001	1168	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1169	a0[i] = (byte)(a1[i]<<VALUE);
kvn@4001	1170	}
kvn@4001	1171	}
kvn@4001	1172	static void test_sllc_n(byte[] a0, byte[] a1) {
kvn@4001	1173	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1174	a0[i] = (byte)(a1[i]<<(-VALUE));
kvn@4001	1175	}
kvn@4001	1176	}
kvn@4001	1177	static void test_sllc_o(byte[] a0, byte[] a1) {
kvn@4001	1178	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1179	a0[i] = (byte)(a1[i]<<SHIFT);
kvn@4001	1180	}
kvn@4001	1181	}
kvn@4001	1182	static void test_sllc_on(byte[] a0, byte[] a1) {
kvn@4001	1183	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1184	a0[i] = (byte)(a1[i]<<(-SHIFT));
kvn@4001	1185	}
kvn@4001	1186	}
kvn@4001	1187	static void test_sllv(byte[] a0, byte[] a1, int b) {
kvn@4001	1188	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1189	a0[i] = (byte)(a1[i]<<b);
kvn@4001	1190	}
kvn@4001	1191	}
kvn@4204	1192	static void test_sllc_add(byte[] a0, byte[] a1) {
kvn@4204	1193	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1194	a0[i] = (byte)((a1[i] + ADD_INIT)<<VALUE);
kvn@4204	1195	}
kvn@4204	1196	}
kvn@4204	1197	static void test_sllv_add(byte[] a0, byte[] a1, int b) {
kvn@4204	1198	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1199	a0[i] = (byte)((a1[i] + b)<<VALUE);
kvn@4204	1200	}
kvn@4204	1201	}
kvn@4204	1202	static void test_sllc_and(byte[] a0, byte[] a1) {
kvn@4204	1203	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1204	a0[i] = (byte)((a1[i] & BIT_MASK)<<VALUE);
kvn@4204	1205	}
kvn@4204	1206	}
kvn@4204	1207	static void test_sllv_and(byte[] a0, byte[] a1, int b) {
kvn@4204	1208	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1209	a0[i] = (byte)((a1[i] & b)<<VALUE);
kvn@4204	1210	}
kvn@4204	1211	}
kvn@4001	1212
kvn@4001	1213	static void test_srlc(byte[] a0, byte[] a1) {
kvn@4001	1214	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1215	a0[i] = (byte)(a1[i]>>>VALUE);
kvn@4001	1216	}
kvn@4001	1217	}
kvn@4001	1218	static void test_srlc_n(byte[] a0, byte[] a1) {
kvn@4001	1219	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1220	a0[i] = (byte)(a1[i]>>>(-VALUE));
kvn@4001	1221	}
kvn@4001	1222	}
kvn@4001	1223	static void test_srlc_o(byte[] a0, byte[] a1) {
kvn@4001	1224	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1225	a0[i] = (byte)(a1[i]>>>SHIFT);
kvn@4001	1226	}
kvn@4001	1227	}
kvn@4001	1228	static void test_srlc_on(byte[] a0, byte[] a1) {
kvn@4001	1229	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1230	a0[i] = (byte)(a1[i]>>>(-SHIFT));
kvn@4001	1231	}
kvn@4001	1232	}
kvn@4001	1233	static void test_srlv(byte[] a0, byte[] a1, int b) {
kvn@4001	1234	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1235	a0[i] = (byte)(a1[i]>>>b);
kvn@4001	1236	}
kvn@4001	1237	}
kvn@4204	1238	static void test_srlc_add(byte[] a0, byte[] a1) {
kvn@4204	1239	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1240	a0[i] = (byte)((a1[i] + ADD_INIT)>>>VALUE);
kvn@4204	1241	}
kvn@4204	1242	}
kvn@4204	1243	static void test_srlv_add(byte[] a0, byte[] a1, int b) {
kvn@4204	1244	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1245	a0[i] = (byte)((a1[i] + b)>>>VALUE);
kvn@4204	1246	}
kvn@4204	1247	}
kvn@4204	1248	static void test_srlc_and(byte[] a0, byte[] a1) {
kvn@4204	1249	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1250	a0[i] = (byte)((a1[i] & BIT_MASK)>>>VALUE);
kvn@4204	1251	}
kvn@4204	1252	}
kvn@4204	1253	static void test_srlv_and(byte[] a0, byte[] a1, int b) {
kvn@4204	1254	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1255	a0[i] = (byte)((a1[i] & b)>>>VALUE);
kvn@4204	1256	}
kvn@4204	1257	}
kvn@4001	1258
kvn@4001	1259	static void test_srac(byte[] a0, byte[] a1) {
kvn@4001	1260	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1261	a0[i] = (byte)(a1[i]>>VALUE);
kvn@4001	1262	}
kvn@4001	1263	}
kvn@4001	1264	static void test_srac_n(byte[] a0, byte[] a1) {
kvn@4001	1265	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1266	a0[i] = (byte)(a1[i]>>(-VALUE));
kvn@4001	1267	}
kvn@4001	1268	}
kvn@4001	1269	static void test_srac_o(byte[] a0, byte[] a1) {
kvn@4001	1270	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1271	a0[i] = (byte)(a1[i]>>SHIFT);
kvn@4001	1272	}
kvn@4001	1273	}
kvn@4001	1274	static void test_srac_on(byte[] a0, byte[] a1) {
kvn@4001	1275	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1276	a0[i] = (byte)(a1[i]>>(-SHIFT));
kvn@4001	1277	}
kvn@4001	1278	}
kvn@4001	1279	static void test_srav(byte[] a0, byte[] a1, int b) {
kvn@4001	1280	for (int i = 0; i < a0.length; i+=1) {
kvn@4001	1281	a0[i] = (byte)(a1[i]>>b);
kvn@4001	1282	}
kvn@4001	1283	}
kvn@4204	1284	static void test_srac_add(byte[] a0, byte[] a1) {
kvn@4204	1285	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1286	a0[i] = (byte)((a1[i] + ADD_INIT)>>VALUE);
kvn@4204	1287	}
kvn@4204	1288	}
kvn@4204	1289	static void test_srav_add(byte[] a0, byte[] a1, int b) {
kvn@4204	1290	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1291	a0[i] = (byte)((a1[i] + b)>>VALUE);
kvn@4204	1292	}
kvn@4204	1293	}
kvn@4204	1294	static void test_srac_and(byte[] a0, byte[] a1) {
kvn@4204	1295	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1296	a0[i] = (byte)((a1[i] & BIT_MASK)>>VALUE);
kvn@4204	1297	}
kvn@4204	1298	}
kvn@4204	1299	static void test_srav_and(byte[] a0, byte[] a1, int b) {
kvn@4204	1300	for (int i = 0; i < a0.length; i+=1) {
kvn@4204	1301	a0[i] = (byte)((a1[i] & b)>>VALUE);
kvn@4204	1302	}
kvn@4204	1303	}
kvn@4001	1304
kvn@4001	1305	static void test_pack2(short[] p2, byte[] a1) {
kvn@4001	1306	if (p2.length*2 > a1.length) return;
kvn@4001	1307	for (int i = 0; i < p2.length; i+=1) {
kvn@4001	1308	short l0 = (short)a1[i*2+0];
kvn@4001	1309	short l1 = (short)a1[i*2+1];
kvn@4001	1310	p2[i] = (short)((l1 << 8) | (l0 & 0xFF));
kvn@4001	1311	}
kvn@4001	1312	}
kvn@4001	1313	static void test_unpack2(byte[] a0, short[] p2) {
kvn@4001	1314	if (p2.length*2 > a0.length) return;
kvn@4001	1315	for (int i = 0; i < p2.length; i+=1) {
kvn@4001	1316	short l = p2[i];
kvn@4001	1317	a0[i*2+0] = (byte)(l & 0xFF);
kvn@4001	1318	a0[i*2+1] = (byte)(l >> 8);
kvn@4001	1319	}
kvn@4001	1320	}
kvn@4001	1321	static void test_pack2_swap(short[] p2, byte[] a1) {
kvn@4001	1322	if (p2.length*2 > a1.length) return;
kvn@4001	1323	for (int i = 0; i < p2.length; i+=1) {
kvn@4001	1324	short l0 = (short)a1[i*2+0];
kvn@4001	1325	short l1 = (short)a1[i*2+1];
kvn@4001	1326	p2[i] = (short)((l0 << 8) | (l1 & 0xFF));
kvn@4001	1327	}
kvn@4001	1328	}
kvn@4001	1329	static void test_unpack2_swap(byte[] a0, short[] p2) {
kvn@4001	1330	if (p2.length*2 > a0.length) return;
kvn@4001	1331	for (int i = 0; i < p2.length; i+=1) {
kvn@4001	1332	short l = p2[i];
kvn@4001	1333	a0[i*2+0] = (byte)(l >> 8);
kvn@4001	1334	a0[i*2+1] = (byte)(l & 0xFF);
kvn@4001	1335	}
kvn@4001	1336	}
kvn@4001	1337
kvn@4001	1338	static void test_pack4(int[] p4, byte[] a1) {
kvn@4001	1339	if (p4.length*4 > a1.length) return;
kvn@4001	1340	for (int i = 0; i < p4.length; i+=1) {
kvn@4001	1341	int l0 = (int)a1[i*4+0];
kvn@4001	1342	int l1 = (int)a1[i*4+1];
kvn@4001	1343	int l2 = (int)a1[i*4+2];
kvn@4001	1344	int l3 = (int)a1[i*4+3];
kvn@4001	1345	p4[i] = (l0 & 0xFF) |
kvn@4001	1346	((l1 & 0xFF) << 8) |
kvn@4001	1347	((l2 & 0xFF) << 16) |
kvn@4001	1348	((l3 & 0xFF) << 24);
kvn@4001	1349	}
kvn@4001	1350	}
kvn@4001	1351	static void test_unpack4(byte[] a0, int[] p4) {
kvn@4001	1352	if (p4.length*4 > a0.length) return;
kvn@4001	1353	for (int i = 0; i < p4.length; i+=1) {
kvn@4001	1354	int l = p4[i];
kvn@4001	1355	a0[i*4+0] = (byte)(l & 0xFF);
kvn@4001	1356	a0[i*4+1] = (byte)(l >> 8);
kvn@4001	1357	a0[i*4+2] = (byte)(l >> 16);
kvn@4001	1358	a0[i*4+3] = (byte)(l >> 24);
kvn@4001	1359	}
kvn@4001	1360	}
kvn@4001	1361	static void test_pack4_swap(int[] p4, byte[] a1) {
kvn@4001	1362	if (p4.length*4 > a1.length) return;
kvn@4001	1363	for (int i = 0; i < p4.length; i+=1) {
kvn@4001	1364	int l0 = (int)a1[i*4+0];
kvn@4001	1365	int l1 = (int)a1[i*4+1];
kvn@4001	1366	int l2 = (int)a1[i*4+2];
kvn@4001	1367	int l3 = (int)a1[i*4+3];
kvn@4001	1368	p4[i] = (l3 & 0xFF) |
kvn@4001	1369	((l2 & 0xFF) << 8) |
kvn@4001	1370	((l1 & 0xFF) << 16) |
kvn@4001	1371	((l0 & 0xFF) << 24);
kvn@4001	1372	}
kvn@4001	1373	}
kvn@4001	1374	static void test_unpack4_swap(byte[] a0, int[] p4) {
kvn@4001	1375	if (p4.length*4 > a0.length) return;
kvn@4001	1376	for (int i = 0; i < p4.length; i+=1) {
kvn@4001	1377	int l = p4[i];
kvn@4001	1378	a0[i*4+0] = (byte)(l >> 24);
kvn@4001	1379	a0[i*4+1] = (byte)(l >> 16);
kvn@4001	1380	a0[i*4+2] = (byte)(l >> 8);
kvn@4001	1381	a0[i*4+3] = (byte)(l & 0xFF);
kvn@4001	1382	}
kvn@4001	1383	}
kvn@4001	1384
kvn@4001	1385	static void test_pack8(long[] p8, byte[] a1) {
kvn@4001	1386	if (p8.length*8 > a1.length) return;
kvn@4001	1387	for (int i = 0; i < p8.length; i+=1) {
kvn@4001	1388	long l0 = (long)a1[i*8+0];
kvn@4001	1389	long l1 = (long)a1[i*8+1];
kvn@4001	1390	long l2 = (long)a1[i*8+2];
kvn@4001	1391	long l3 = (long)a1[i*8+3];
kvn@4001	1392	long l4 = (long)a1[i*8+4];
kvn@4001	1393	long l5 = (long)a1[i*8+5];
kvn@4001	1394	long l6 = (long)a1[i*8+6];
kvn@4001	1395	long l7 = (long)a1[i*8+7];
kvn@4001	1396	p8[i] = (l0 & 0xFFl) |
kvn@4001	1397	((l1 & 0xFFl) << 8) |
kvn@4001	1398	((l2 & 0xFFl) << 16) |
kvn@4001	1399	((l3 & 0xFFl) << 24) |
kvn@4001	1400	((l4 & 0xFFl) << 32) |
kvn@4001	1401	((l5 & 0xFFl) << 40) |
kvn@4001	1402	((l6 & 0xFFl) << 48) |
kvn@4001	1403	((l7 & 0xFFl) << 56);
kvn@4001	1404	}
kvn@4001	1405	}
kvn@4001	1406	static void test_unpack8(byte[] a0, long[] p8) {
kvn@4001	1407	if (p8.length*8 > a0.length) return;
kvn@4001	1408	for (int i = 0; i < p8.length; i+=1) {
kvn@4001	1409	long l = p8[i];
kvn@4001	1410	a0[i*8+0] = (byte)(l & 0xFFl);
kvn@4001	1411	a0[i*8+1] = (byte)(l >> 8);
kvn@4001	1412	a0[i*8+2] = (byte)(l >> 16);
kvn@4001	1413	a0[i*8+3] = (byte)(l >> 24);
kvn@4001	1414	a0[i*8+4] = (byte)(l >> 32);
kvn@4001	1415	a0[i*8+5] = (byte)(l >> 40);
kvn@4001	1416	a0[i*8+6] = (byte)(l >> 48);
kvn@4001	1417	a0[i*8+7] = (byte)(l >> 56);
kvn@4001	1418	}
kvn@4001	1419	}
kvn@4001	1420	static void test_pack8_swap(long[] p8, byte[] a1) {
kvn@4001	1421	if (p8.length*8 > a1.length) return;
kvn@4001	1422	for (int i = 0; i < p8.length; i+=1) {
kvn@4001	1423	long l0 = (long)a1[i*8+0];
kvn@4001	1424	long l1 = (long)a1[i*8+1];
kvn@4001	1425	long l2 = (long)a1[i*8+2];
kvn@4001	1426	long l3 = (long)a1[i*8+3];
kvn@4001	1427	long l4 = (long)a1[i*8+4];
kvn@4001	1428	long l5 = (long)a1[i*8+5];
kvn@4001	1429	long l6 = (long)a1[i*8+6];
kvn@4001	1430	long l7 = (long)a1[i*8+7];
kvn@4001	1431	p8[i] = (l7 & 0xFFl) |
kvn@4001	1432	((l6 & 0xFFl) << 8) |
kvn@4001	1433	((l5 & 0xFFl) << 16) |
kvn@4001	1434	((l4 & 0xFFl) << 24) |
kvn@4001	1435	((l3 & 0xFFl) << 32) |
kvn@4001	1436	((l2 & 0xFFl) << 40) |
kvn@4001	1437	((l1 & 0xFFl) << 48) |
kvn@4001	1438	((l0 & 0xFFl) << 56);
kvn@4001	1439	}
kvn@4001	1440	}
kvn@4001	1441	static void test_unpack8_swap(byte[] a0, long[] p8) {
kvn@4001	1442	if (p8.length*8 > a0.length) return;
kvn@4001	1443	for (int i = 0; i < p8.length; i+=1) {
kvn@4001	1444	long l = p8[i];
kvn@4001	1445	a0[i*8+0] = (byte)(l >> 56);
kvn@4001	1446	a0[i*8+1] = (byte)(l >> 48);
kvn@4001	1447	a0[i*8+2] = (byte)(l >> 40);
kvn@4001	1448	a0[i*8+3] = (byte)(l >> 32);
kvn@4001	1449	a0[i*8+4] = (byte)(l >> 24);
kvn@4001	1450	a0[i*8+5] = (byte)(l >> 16);
kvn@4001	1451	a0[i*8+6] = (byte)(l >> 8);
kvn@4001	1452	a0[i*8+7] = (byte)(l & 0xFFl);
kvn@4001	1453	}
kvn@4001	1454	}
kvn@4001	1455
kvn@4001	1456	static int verify(String text, int i, byte elem, byte val) {
kvn@4001	1457	if (elem != val) {
kvn@4001	1458	System.err.println(text + "[" + i + "] = " + elem + " != " + val);
kvn@4001	1459	return 1;
kvn@4001	1460	}
kvn@4001	1461	return 0;
kvn@4001	1462	}
kvn@4001	1463
kvn@4001	1464	static int verify(String text, int i, short elem, short val) {
kvn@4001	1465	if (elem != val) {
kvn@4001	1466	System.err.println(text + "[" + i + "] = " + elem + " != " + val);
kvn@4001	1467	return 1;
kvn@4001	1468	}
kvn@4001	1469	return 0;
kvn@4001	1470	}
kvn@4001	1471
kvn@4001	1472	static int verify(String text, int i, int elem, int val) {
kvn@4001	1473	if (elem != val) {
kvn@4001	1474	System.err.println(text + "[" + i + "] = " + Integer.toHexString(elem) + " != " + Integer.toHexString(val));
kvn@4001	1475	return 1;
kvn@4001	1476	}
kvn@4001	1477	return 0;
kvn@4001	1478	}
kvn@4001	1479
kvn@4001	1480	static int verify(String text, int i, long elem, long val) {
kvn@4001	1481	if (elem != val) {
kvn@4001	1482	System.err.println(text + "[" + i + "] = " + Long.toHexString(elem) + " != " + Long.toHexString(val));
kvn@4001	1483	return 1;
kvn@4001	1484	}
kvn@4001	1485	return 0;
kvn@4001	1486	}
kvn@4001	1487	}