source: pacpussensors/trunk/Vislab/lib3dv/eigen/test/packetmath.cpp@ 141

Last change on this file since 141 was 136, checked in by ldecherf, 8 years ago

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1// This file is part of Eigen, a lightweight C++ template library
2// for linear algebra.
3//
4// Copyright (C) 2008-2009 Gael Guennebaud <gael.guennebaud@inria.fr>
5// Copyright (C) 2006-2008 Benoit Jacob <jacob.benoit.1@gmail.com>
6//
7// This Source Code Form is subject to the terms of the Mozilla
8// Public License v. 2.0. If a copy of the MPL was not distributed
9// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
10
11#include "main.h"
12
13// using namespace Eigen;
14
15namespace Eigen {
16namespace internal {
17template<typename T> T negate(const T& x) { return -x; }
18}
19}
20
21template<typename Scalar> bool isApproxAbs(const Scalar& a, const Scalar& b, const typename NumTraits<Scalar>::Real& refvalue)
22{
23 return internal::isMuchSmallerThan(a-b, refvalue);
24}
25
26template<typename Scalar> bool areApproxAbs(const Scalar* a, const Scalar* b, int size, const typename NumTraits<Scalar>::Real& refvalue)
27{
28 for (int i=0; i<size; ++i)
29 {
30 if (!isApproxAbs(a[i],b[i],refvalue))
31 {
32 std::cout << "[" << Map<const Matrix<Scalar,1,Dynamic> >(a,size) << "]" << " != " << Map<const Matrix<Scalar,1,Dynamic> >(b,size) << "\n";
33 return false;
34 }
35 }
36 return true;
37}
38
39template<typename Scalar> bool areApprox(const Scalar* a, const Scalar* b, int size)
40{
41 for (int i=0; i<size; ++i)
42 {
43 if (a[i]!=b[i] && !internal::isApprox(a[i],b[i]))
44 {
45 std::cout << "[" << Map<const Matrix<Scalar,1,Dynamic> >(a,size) << "]" << " != " << Map<const Matrix<Scalar,1,Dynamic> >(b,size) << "\n";
46 return false;
47 }
48 }
49 return true;
50}
51
52
53#define CHECK_CWISE2(REFOP, POP) { \
54 for (int i=0; i<PacketSize; ++i) \
55 ref[i] = REFOP(data1[i], data1[i+PacketSize]); \
56 internal::pstore(data2, POP(internal::pload<Packet>(data1), internal::pload<Packet>(data1+PacketSize))); \
57 VERIFY(areApprox(ref, data2, PacketSize) && #POP); \
58}
59
60#define CHECK_CWISE1(REFOP, POP) { \
61 for (int i=0; i<PacketSize; ++i) \
62 ref[i] = REFOP(data1[i]); \
63 internal::pstore(data2, POP(internal::pload<Packet>(data1))); \
64 VERIFY(areApprox(ref, data2, PacketSize) && #POP); \
65}
66
67template<bool Cond,typename Packet>
68struct packet_helper
69{
70 template<typename T>
71 inline Packet load(const T* from) const { return internal::pload<Packet>(from); }
72
73 template<typename T>
74 inline void store(T* to, const Packet& x) const { internal::pstore(to,x); }
75};
76
77template<typename Packet>
78struct packet_helper<false,Packet>
79{
80 template<typename T>
81 inline T load(const T* from) const { return *from; }
82
83 template<typename T>
84 inline void store(T* to, const T& x) const { *to = x; }
85};
86
87#define CHECK_CWISE1_IF(COND, REFOP, POP) if(COND) { \
88 packet_helper<COND,Packet> h; \
89 for (int i=0; i<PacketSize; ++i) \
90 ref[i] = REFOP(data1[i]); \
91 h.store(data2, POP(h.load(data1))); \
92 VERIFY(areApprox(ref, data2, PacketSize) && #POP); \
93}
94
95#define REF_ADD(a,b) ((a)+(b))
96#define REF_SUB(a,b) ((a)-(b))
97#define REF_MUL(a,b) ((a)*(b))
98#define REF_DIV(a,b) ((a)/(b))
99
100template<typename Scalar> void packetmath()
101{
102 using std::abs;
103 typedef typename internal::packet_traits<Scalar>::type Packet;
104 const int PacketSize = internal::packet_traits<Scalar>::size;
105 typedef typename NumTraits<Scalar>::Real RealScalar;
106
107 const int size = PacketSize*4;
108 EIGEN_ALIGN16 Scalar data1[internal::packet_traits<Scalar>::size*4];
109 EIGEN_ALIGN16 Scalar data2[internal::packet_traits<Scalar>::size*4];
110 EIGEN_ALIGN16 Packet packets[PacketSize*2];
111 EIGEN_ALIGN16 Scalar ref[internal::packet_traits<Scalar>::size*4];
112 RealScalar refvalue = 0;
113 for (int i=0; i<size; ++i)
114 {
115 data1[i] = internal::random<Scalar>()/RealScalar(PacketSize);
116 data2[i] = internal::random<Scalar>()/RealScalar(PacketSize);
117 refvalue = (std::max)(refvalue,abs(data1[i]));
118 }
119
120 internal::pstore(data2, internal::pload<Packet>(data1));
121 VERIFY(areApprox(data1, data2, PacketSize) && "aligned load/store");
122
123 for (int offset=0; offset<PacketSize; ++offset)
124 {
125 internal::pstore(data2, internal::ploadu<Packet>(data1+offset));
126 VERIFY(areApprox(data1+offset, data2, PacketSize) && "internal::ploadu");
127 }
128
129 for (int offset=0; offset<PacketSize; ++offset)
130 {
131 internal::pstoreu(data2+offset, internal::pload<Packet>(data1));
132 VERIFY(areApprox(data1, data2+offset, PacketSize) && "internal::pstoreu");
133 }
134
135 for (int offset=0; offset<PacketSize; ++offset)
136 {
137 packets[0] = internal::pload<Packet>(data1);
138 packets[1] = internal::pload<Packet>(data1+PacketSize);
139 if (offset==0) internal::palign<0>(packets[0], packets[1]);
140 else if (offset==1) internal::palign<1>(packets[0], packets[1]);
141 else if (offset==2) internal::palign<2>(packets[0], packets[1]);
142 else if (offset==3) internal::palign<3>(packets[0], packets[1]);
143 internal::pstore(data2, packets[0]);
144
145 for (int i=0; i<PacketSize; ++i)
146 ref[i] = data1[i+offset];
147
148 VERIFY(areApprox(ref, data2, PacketSize) && "internal::palign");
149 }
150
151 CHECK_CWISE2(REF_ADD, internal::padd);
152 CHECK_CWISE2(REF_SUB, internal::psub);
153 CHECK_CWISE2(REF_MUL, internal::pmul);
154 #ifndef EIGEN_VECTORIZE_ALTIVEC
155 if (!internal::is_same<Scalar,int>::value)
156 CHECK_CWISE2(REF_DIV, internal::pdiv);
157 #endif
158 CHECK_CWISE1(internal::negate, internal::pnegate);
159 CHECK_CWISE1(numext::conj, internal::pconj);
160
161 for(int offset=0;offset<3;++offset)
162 {
163 for (int i=0; i<PacketSize; ++i)
164 ref[i] = data1[offset];
165 internal::pstore(data2, internal::pset1<Packet>(data1[offset]));
166 VERIFY(areApprox(ref, data2, PacketSize) && "internal::pset1");
167 }
168
169 VERIFY(internal::isApprox(data1[0], internal::pfirst(internal::pload<Packet>(data1))) && "internal::pfirst");
170
171 if(PacketSize>1)
172 {
173 for(int offset=0;offset<4;++offset)
174 {
175 for(int i=0;i<PacketSize/2;++i)
176 ref[2*i+0] = ref[2*i+1] = data1[offset+i];
177 internal::pstore(data2,internal::ploaddup<Packet>(data1+offset));
178 VERIFY(areApprox(ref, data2, PacketSize) && "ploaddup");
179 }
180 }
181
182 ref[0] = 0;
183 for (int i=0; i<PacketSize; ++i)
184 ref[0] += data1[i];
185 VERIFY(isApproxAbs(ref[0], internal::predux(internal::pload<Packet>(data1)), refvalue) && "internal::predux");
186
187 ref[0] = 1;
188 for (int i=0; i<PacketSize; ++i)
189 ref[0] *= data1[i];
190 VERIFY(internal::isApprox(ref[0], internal::predux_mul(internal::pload<Packet>(data1))) && "internal::predux_mul");
191
192 for (int j=0; j<PacketSize; ++j)
193 {
194 ref[j] = 0;
195 for (int i=0; i<PacketSize; ++i)
196 ref[j] += data1[i+j*PacketSize];
197 packets[j] = internal::pload<Packet>(data1+j*PacketSize);
198 }
199 internal::pstore(data2, internal::preduxp(packets));
200 VERIFY(areApproxAbs(ref, data2, PacketSize, refvalue) && "internal::preduxp");
201
202 for (int i=0; i<PacketSize; ++i)
203 ref[i] = data1[PacketSize-i-1];
204 internal::pstore(data2, internal::preverse(internal::pload<Packet>(data1)));
205 VERIFY(areApprox(ref, data2, PacketSize) && "internal::preverse");
206}
207
208template<typename Scalar> void packetmath_real()
209{
210 using std::abs;
211 typedef typename internal::packet_traits<Scalar>::type Packet;
212 const int PacketSize = internal::packet_traits<Scalar>::size;
213
214 const int size = PacketSize*4;
215 EIGEN_ALIGN16 Scalar data1[internal::packet_traits<Scalar>::size*4];
216 EIGEN_ALIGN16 Scalar data2[internal::packet_traits<Scalar>::size*4];
217 EIGEN_ALIGN16 Scalar ref[internal::packet_traits<Scalar>::size*4];
218
219 for (int i=0; i<size; ++i)
220 {
221 data1[i] = internal::random<Scalar>(-1,1) * std::pow(Scalar(10), internal::random<Scalar>(-3,3));
222 data2[i] = internal::random<Scalar>(-1,1) * std::pow(Scalar(10), internal::random<Scalar>(-3,3));
223 }
224 CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasSin, std::sin, internal::psin);
225 CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasCos, std::cos, internal::pcos);
226 CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasTan, std::tan, internal::ptan);
227
228 for (int i=0; i<size; ++i)
229 {
230 data1[i] = internal::random<Scalar>(-1,1);
231 data2[i] = internal::random<Scalar>(-1,1);
232 }
233 CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasASin, std::asin, internal::pasin);
234 CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasACos, std::acos, internal::pacos);
235
236 for (int i=0; i<size; ++i)
237 {
238 data1[i] = internal::random<Scalar>(-87,88);
239 data2[i] = internal::random<Scalar>(-87,88);
240 }
241 CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasExp, std::exp, internal::pexp);
242 {
243 data1[0] = std::numeric_limits<Scalar>::quiet_NaN();
244 packet_helper<internal::packet_traits<Scalar>::HasExp,Packet> h;
245 h.store(data2, internal::pexp(h.load(data1)));
246 VERIFY(isNaN(data2[0]));
247 }
248
249 for (int i=0; i<size; ++i)
250 {
251 data1[i] = internal::random<Scalar>(0,1) * std::pow(Scalar(10), internal::random<Scalar>(-6,6));
252 data2[i] = internal::random<Scalar>(0,1) * std::pow(Scalar(10), internal::random<Scalar>(-6,6));
253 }
254 if(internal::random<float>(0,1)<0.1)
255 data1[internal::random<int>(0, PacketSize)] = 0;
256 CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasSqrt, std::sqrt, internal::psqrt);
257 CHECK_CWISE1_IF(internal::packet_traits<Scalar>::HasLog, std::log, internal::plog);
258 {
259 data1[0] = std::numeric_limits<Scalar>::quiet_NaN();
260 packet_helper<internal::packet_traits<Scalar>::HasLog,Packet> h;
261 h.store(data2, internal::plog(h.load(data1)));
262 VERIFY(isNaN(data2[0]));
263 data1[0] = -1.0f;
264 h.store(data2, internal::plog(h.load(data1)));
265 VERIFY(isNaN(data2[0]));
266#if !EIGEN_FAST_MATH
267 h.store(data2, internal::psqrt(h.load(data1)));
268 VERIFY(isNaN(data2[0]));
269 VERIFY(isNaN(data2[1]));
270#endif
271 }
272}
273
274template<typename Scalar> void packetmath_notcomplex()
275{
276 using std::abs;
277 typedef typename internal::packet_traits<Scalar>::type Packet;
278 const int PacketSize = internal::packet_traits<Scalar>::size;
279
280 EIGEN_ALIGN16 Scalar data1[internal::packet_traits<Scalar>::size*4];
281 EIGEN_ALIGN16 Scalar data2[internal::packet_traits<Scalar>::size*4];
282 EIGEN_ALIGN16 Scalar ref[internal::packet_traits<Scalar>::size*4];
283
284 Array<Scalar,Dynamic,1>::Map(data1, internal::packet_traits<Scalar>::size*4).setRandom();
285
286 ref[0] = data1[0];
287 for (int i=0; i<PacketSize; ++i)
288 ref[0] = (std::min)(ref[0],data1[i]);
289 VERIFY(internal::isApprox(ref[0], internal::predux_min(internal::pload<Packet>(data1))) && "internal::predux_min");
290
291 CHECK_CWISE2((std::min), internal::pmin);
292 CHECK_CWISE2((std::max), internal::pmax);
293 CHECK_CWISE1(abs, internal::pabs);
294
295 ref[0] = data1[0];
296 for (int i=0; i<PacketSize; ++i)
297 ref[0] = (std::max)(ref[0],data1[i]);
298 VERIFY(internal::isApprox(ref[0], internal::predux_max(internal::pload<Packet>(data1))) && "internal::predux_max");
299
300 for (int i=0; i<PacketSize; ++i)
301 ref[i] = data1[0]+Scalar(i);
302 internal::pstore(data2, internal::plset(data1[0]));
303 VERIFY(areApprox(ref, data2, PacketSize) && "internal::plset");
304}
305
306template<typename Scalar,bool ConjLhs,bool ConjRhs> void test_conj_helper(Scalar* data1, Scalar* data2, Scalar* ref, Scalar* pval)
307{
308 typedef typename internal::packet_traits<Scalar>::type Packet;
309 const int PacketSize = internal::packet_traits<Scalar>::size;
310
311 internal::conj_if<ConjLhs> cj0;
312 internal::conj_if<ConjRhs> cj1;
313 internal::conj_helper<Scalar,Scalar,ConjLhs,ConjRhs> cj;
314 internal::conj_helper<Packet,Packet,ConjLhs,ConjRhs> pcj;
315
316 for(int i=0;i<PacketSize;++i)
317 {
318 ref[i] = cj0(data1[i]) * cj1(data2[i]);
319 VERIFY(internal::isApprox(ref[i], cj.pmul(data1[i],data2[i])) && "conj_helper pmul");
320 }
321 internal::pstore(pval,pcj.pmul(internal::pload<Packet>(data1),internal::pload<Packet>(data2)));
322 VERIFY(areApprox(ref, pval, PacketSize) && "conj_helper pmul");
323
324 for(int i=0;i<PacketSize;++i)
325 {
326 Scalar tmp = ref[i];
327 ref[i] += cj0(data1[i]) * cj1(data2[i]);
328 VERIFY(internal::isApprox(ref[i], cj.pmadd(data1[i],data2[i],tmp)) && "conj_helper pmadd");
329 }
330 internal::pstore(pval,pcj.pmadd(internal::pload<Packet>(data1),internal::pload<Packet>(data2),internal::pload<Packet>(pval)));
331 VERIFY(areApprox(ref, pval, PacketSize) && "conj_helper pmadd");
332}
333
334template<typename Scalar> void packetmath_complex()
335{
336 typedef typename internal::packet_traits<Scalar>::type Packet;
337 const int PacketSize = internal::packet_traits<Scalar>::size;
338
339 const int size = PacketSize*4;
340 EIGEN_ALIGN16 Scalar data1[PacketSize*4];
341 EIGEN_ALIGN16 Scalar data2[PacketSize*4];
342 EIGEN_ALIGN16 Scalar ref[PacketSize*4];
343 EIGEN_ALIGN16 Scalar pval[PacketSize*4];
344
345 for (int i=0; i<size; ++i)
346 {
347 data1[i] = internal::random<Scalar>() * Scalar(1e2);
348 data2[i] = internal::random<Scalar>() * Scalar(1e2);
349 }
350
351 test_conj_helper<Scalar,false,false> (data1,data2,ref,pval);
352 test_conj_helper<Scalar,false,true> (data1,data2,ref,pval);
353 test_conj_helper<Scalar,true,false> (data1,data2,ref,pval);
354 test_conj_helper<Scalar,true,true> (data1,data2,ref,pval);
355
356 {
357 for(int i=0;i<PacketSize;++i)
358 ref[i] = Scalar(std::imag(data1[i]),std::real(data1[i]));
359 internal::pstore(pval,internal::pcplxflip(internal::pload<Packet>(data1)));
360 VERIFY(areApprox(ref, pval, PacketSize) && "pcplxflip");
361 }
362
363
364}
365
366void test_packetmath()
367{
368 for(int i = 0; i < g_repeat; i++) {
369 CALL_SUBTEST_1( packetmath<float>() );
370 CALL_SUBTEST_2( packetmath<double>() );
371 CALL_SUBTEST_3( packetmath<int>() );
372 CALL_SUBTEST_1( packetmath<std::complex<float> >() );
373 CALL_SUBTEST_2( packetmath<std::complex<double> >() );
374
375 CALL_SUBTEST_1( packetmath_notcomplex<float>() );
376 CALL_SUBTEST_2( packetmath_notcomplex<double>() );
377 CALL_SUBTEST_3( packetmath_notcomplex<int>() );
378
379 CALL_SUBTEST_1( packetmath_real<float>() );
380 CALL_SUBTEST_2( packetmath_real<double>() );
381
382 CALL_SUBTEST_1( packetmath_complex<std::complex<float> >() );
383 CALL_SUBTEST_2( packetmath_complex<std::complex<double> >() );
384 }
385}
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