source: pacpussensors/trunk/Vislab/lib3dv-1.2.0/lib3dv/eigen/test/dynalloc.cpp@ 139

Last change on this file since 139 was 136, checked in by ldecherf, 9 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 Gael Guennebaud <gael.guennebaud@inria.fr>
5//
6// This Source Code Form is subject to the terms of the Mozilla
7// Public License v. 2.0. If a copy of the MPL was not distributed
8// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
9
10#include "main.h"
11
12#if EIGEN_ALIGN
13#define ALIGNMENT 16
14#else
15#define ALIGNMENT 1
16#endif
17
18void check_handmade_aligned_malloc()
19{
20 for(int i = 1; i < 1000; i++)
21 {
22 char *p = (char*)internal::handmade_aligned_malloc(i);
23 VERIFY(size_t(p)%ALIGNMENT==0);
24 // if the buffer is wrongly allocated this will give a bad write --> check with valgrind
25 for(int j = 0; j < i; j++) p[j]=0;
26 internal::handmade_aligned_free(p);
27 }
28}
29
30void check_aligned_malloc()
31{
32 for(int i = 1; i < 1000; i++)
33 {
34 char *p = (char*)internal::aligned_malloc(i);
35 VERIFY(size_t(p)%ALIGNMENT==0);
36 // if the buffer is wrongly allocated this will give a bad write --> check with valgrind
37 for(int j = 0; j < i; j++) p[j]=0;
38 internal::aligned_free(p);
39 }
40}
41
42void check_aligned_new()
43{
44 for(int i = 1; i < 1000; i++)
45 {
46 float *p = internal::aligned_new<float>(i);
47 VERIFY(size_t(p)%ALIGNMENT==0);
48 // if the buffer is wrongly allocated this will give a bad write --> check with valgrind
49 for(int j = 0; j < i; j++) p[j]=0;
50 internal::aligned_delete(p,i);
51 }
52}
53
54void check_aligned_stack_alloc()
55{
56 for(int i = 1; i < 400; i++)
57 {
58 ei_declare_aligned_stack_constructed_variable(float,p,i,0);
59 VERIFY(size_t(p)%ALIGNMENT==0);
60 // if the buffer is wrongly allocated this will give a bad write --> check with valgrind
61 for(int j = 0; j < i; j++) p[j]=0;
62 }
63}
64
65
66// test compilation with both a struct and a class...
67struct MyStruct
68{
69 EIGEN_MAKE_ALIGNED_OPERATOR_NEW
70 char dummychar;
71 Vector4f avec;
72};
73
74class MyClassA
75{
76 public:
77 EIGEN_MAKE_ALIGNED_OPERATOR_NEW
78 char dummychar;
79 Vector4f avec;
80};
81
82template<typename T> void check_dynaligned()
83{
84 T* obj = new T;
85 VERIFY(T::NeedsToAlign==1);
86 VERIFY(size_t(obj)%ALIGNMENT==0);
87 delete obj;
88}
89
90template<typename T> void check_custom_new_delete()
91{
92 {
93 T* t = new T;
94 delete t;
95 }
96
97 {
98 std::size_t N = internal::random<std::size_t>(1,10);
99 T* t = new T[N];
100 delete[] t;
101 }
102
103#ifdef EIGEN_ALIGN
104 {
105 T* t = static_cast<T *>((T::operator new)(sizeof(T)));
106 (T::operator delete)(t, sizeof(T));
107 }
108
109 {
110 T* t = static_cast<T *>((T::operator new)(sizeof(T)));
111 (T::operator delete)(t);
112 }
113#endif
114}
115
116void test_dynalloc()
117{
118 // low level dynamic memory allocation
119 CALL_SUBTEST(check_handmade_aligned_malloc());
120 CALL_SUBTEST(check_aligned_malloc());
121 CALL_SUBTEST(check_aligned_new());
122 CALL_SUBTEST(check_aligned_stack_alloc());
123
124 // check static allocation, who knows ?
125 #if EIGEN_ALIGN_STATICALLY
126 for (int i=0; i<g_repeat*100; ++i)
127 {
128 CALL_SUBTEST(check_dynaligned<Vector4f>() );
129 CALL_SUBTEST(check_dynaligned<Vector2d>() );
130 CALL_SUBTEST(check_dynaligned<Matrix4f>() );
131 CALL_SUBTEST(check_dynaligned<Vector4d>() );
132 CALL_SUBTEST(check_dynaligned<Vector4i>() );
133
134 CALL_SUBTEST( check_custom_new_delete<Vector4f>() );
135 CALL_SUBTEST( check_custom_new_delete<Vector2f>() );
136 CALL_SUBTEST( check_custom_new_delete<Matrix4f>() );
137 CALL_SUBTEST( check_custom_new_delete<MatrixXi>() );
138 }
139
140 {
141 MyStruct foo0; VERIFY(size_t(foo0.avec.data())%ALIGNMENT==0);
142 MyClassA fooA; VERIFY(size_t(fooA.avec.data())%ALIGNMENT==0);
143 }
144
145 // dynamic allocation, single object
146 for (int i=0; i<g_repeat*100; ++i)
147 {
148 MyStruct *foo0 = new MyStruct(); VERIFY(size_t(foo0->avec.data())%ALIGNMENT==0);
149 MyClassA *fooA = new MyClassA(); VERIFY(size_t(fooA->avec.data())%ALIGNMENT==0);
150 delete foo0;
151 delete fooA;
152 }
153
154 // dynamic allocation, array
155 const int N = 10;
156 for (int i=0; i<g_repeat*100; ++i)
157 {
158 MyStruct *foo0 = new MyStruct[N]; VERIFY(size_t(foo0->avec.data())%ALIGNMENT==0);
159 MyClassA *fooA = new MyClassA[N]; VERIFY(size_t(fooA->avec.data())%ALIGNMENT==0);
160 delete[] foo0;
161 delete[] fooA;
162 }
163 #endif
164
165}
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