comparison m-toolbox/test/test_ao_minus.m @ 0:f0afece42f48

Import.
author Daniele Nicolodi <nicolodi@science.unitn.it>
date Wed, 23 Nov 2011 19:22:13 +0100
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-1:000000000000 0:f0afece42f48
1 mc
2
3 %% Some AOs
4
5 c1 = ao(1); c1.setName;
6 c2 = ao(2); c2.setName;
7 c3 = ao(3); c3.setName;
8 c4 = ao(randn(3,3)); c4.setName;
9 c5 = ao(randn(3,3)); c5.setName;
10 c6 = ao(randn(3,1)); c6.setName;
11 c7 = ao(randn(1,3)); c7.setName;
12
13
14 t1 = ao(plist('tsfcn', 't', 'fs', 10, 'nsecs', 10)); t1.setName;
15 t2 = ao(plist('tsfcn', 'sqrt(t)', 'fs', 10, 'nsecs', 10)); t2.setName;
16 t3 = ao(plist('tsfcn', 't.^2', 'fs', 10, 'nsecs', 10)); t3.setName;
17
18 f1 = ao(plist('fsfcn', 'f', 'f', 'logspace(-4,1,100)')); f1.setName;
19 f2 = ao(plist('fsfcn', '1./f', 'f', 'logspace(-4,1,100)')); f2.setName;
20 f3 = ao(plist('fsfcn', 'sqrt(f)', 'f', 'logspace(-4,1,100)')); f3.setName;
21
22 x1 = ao(plist('xyfcn', 'x', 'x', '1:100')); x1.setName;
23 x2 = ao(plist('xyfcn', '1./x', 'x', '1:100')); x2.setName;
24 x3 = ao(plist('xyfcn', 'sqrt(x)', 'x', '1:100')); x3.setName;
25
26
27 %% Rule 1
28
29 %---------- CDATA
30 % cdata + cdata
31 r1 = minus(c1,c3);
32 % cdata + tsdata
33 r2 = minus(c1,t1);
34 % cdata + fsdata
35 r3 = minus(c1,f1);
36 % cdata + xydata
37 r4 = minus(c1,x1);
38
39 %---------- TSDATA
40 % tsdata + tsdata
41 r5 = minus(t1, t2);
42 % tsdata + fsdata
43 try
44 r6 = minus(t1, f2);
45 error('Data types should be incompatible: booo!');
46 catch
47 lasterr
48 warning('Data types not compatible: fsdata+tsdata: hoorah!');
49 end
50 % tsdata + xydata
51 r7 = minus(t1, x2);
52 % tsdata + cdata
53 r8 = minus(t1, c2);
54
55 %---------- FSDATA
56 % fsdata + tsdata
57 try
58 r9 = minus(f1, t2);
59 error('Data types should be incompatible: booo!');
60 catch
61 lasterr
62 warning('Data types not compatible: fsdata+tsdata: hoorah!');
63 end
64 % fsdata + fsdata
65 r10 = minus(f1, f2);
66 % fsdata + xydata
67 r11 = minus(f1, x2);
68 % fsdata + cdata
69 r12 = minus(f1, c2);
70
71 %---------- XYDATA
72 % xydata + tsdata
73 r13 = minus(x1, t2);
74 % xydata + fsdata
75 r14 = minus(x1, f2);
76 % xydata + xydata
77 r15 = minus(x1, x2);
78 % xydata + cdata
79 r16 = minus(x1, c2);
80
81
82
83
84 %% Rule 2: vector + single
85
86 v = [t1 t2];
87 s = c2;
88
89 % one output
90 r1 = minus(v,s)
91 r2 = minus(s,v)
92
93 % multiple outputs
94 [r1 r2] = minus(v,s)
95
96
97 %% Rule 3: V_N + V_M
98
99 v1 = [t1 t2];
100 v2 = [c1 c2 c3];
101
102 try
103 r = minus(v1,v2);
104 error('Rule 3 should fail: booo!');
105 catch
106 lasterr
107 warning('Rule 3 fails: hoorah!');
108 end
109
110 %% Rule 4: V_N + U_N
111
112 v1 = [t1 t2 t3];
113 v2 = [x1 x2 x3];
114
115 r = minus(v1,v2);
116 [r1 r2 r3] = minus(v1,v2);
117
118 %% Rule 5: matrix + single
119
120 m = [t1 t2 t3; x1 x2 x3];
121 s = c2;
122
123 r1 = minus(m,s);
124 r2 = minus(s,m);
125
126 %% Rule 6: matrix + column vector
127
128 m = [t1 t2 t3; x1 x2 x3];
129 v = [c1; c2];
130
131 r1 = minus(m,v)
132 r2 = minus(v,m)
133
134 %% Rule 7: matrix + row vector
135
136 m = [t1 t2 t3; x1 x2 x3];
137 v = [c1 c2 c3];
138
139 r1 = minus(m,v)
140 r2 = minus(v,m)
141
142 %% Rule 8: M_NP + V_1Q (or V_Q1)
143
144
145 m = [t1 t2 t3; x1 x2 x3];
146 v = [c1 c2];
147 try
148 r = minus(m,v)
149 error('Rule 8 should fail: booo!');
150 catch
151 lasterr
152 warning('Rule 8 fails: hoorah!');
153 end
154 try
155 r = minus(v,m)
156 error('Rule 8 should fail: booo!');
157 catch
158 lasterr
159 warning('Rule 8 fails: hoorah!');
160 end
161
162 m = [t1 t2 t3; x1 x2 x3];
163 v = [c1; c2; c3];
164 try
165 r = minus(m,v)
166 error('Rule 8 should fail: booo!');
167 catch
168 lasterr
169 warning('Rule 8 fails: hoorah!');
170 end
171 try
172 r = minus(v,m)
173 error('Rule 8 should fail: booo!');
174 catch
175 lasterr
176 warning('Rule 8 fails: hoorah!');
177 end
178
179 %% Rule 9: M_NP + H_PQ
180
181 m = [t1 t2; x1 x2];
182 h = [c1 c2 c3; c1 c2 c3];
183
184 try
185 r = minus(m,h)
186 error('Rule 9 should fail: booo!');
187 catch
188 lasterr
189 warning('Rule 9 fails: hoorah!');
190 end
191
192 %% Rule 10: matrix + matrix
193
194 m = [t1 t2 t3; x1 x2 x3];
195 h = [c1 c2 c3; c1 c2 c3];
196
197 r = minus(m,h)
198
199 %% Rule 11: more than two inputs
200
201 m = [t1 t2 t3; x1 x2 x3];
202 v = [c1; c2];
203
204 r = minus(m,v, c3, v, m)
205
206 %% Check units
207
208
209 % empty + m = m
210 t1.setYunits('m');
211 t2.setYunits('');
212 r = minus(t1,t2)
213
214 % V + m = error
215 t2.setYunits('V');
216 try
217 r = minus(t1,t2)
218 error('This unit check should fail: booo!');
219 catch
220 lasterr
221 warning('The unit check failed: hoorah!');
222 end
223