]> git.saurik.com Git - wxWidgets.git/blob - tests/strings/unichar.cpp
No changes, just use traditional English name for Mozart's work.
[wxWidgets.git] / tests / strings / unichar.cpp
1 ///////////////////////////////////////////////////////////////////////////////
2 // Name: tests/strings/unichar.cpp
3 // Purpose: Test for wxUniChar class
4 // Author: Vaclav Slavik
5 // Created: 2007-03-11
6 // RCS-ID: $Id$
7 // Copyright: (c) 2007 REA Elektronik GmbH
8 // Licence: wxWindows licence
9 ///////////////////////////////////////////////////////////////////////////////
10
11 // ----------------------------------------------------------------------------
12 // headers
13 // ----------------------------------------------------------------------------
14
15 #include "testprec.h"
16
17 #ifdef __BORLANDC__
18 #pragma hdrstop
19 #endif
20
21 #ifndef WX_PRECOMP
22 #include "wx/wx.h"
23 #endif // WX_PRECOMP
24
25 #include "wx/string.h"
26
27 // ----------------------------------------------------------------------------
28 // test class
29 // ----------------------------------------------------------------------------
30
31 class UniCharTestCase : public CppUnit::TestCase
32 {
33 public:
34 UniCharTestCase() {}
35
36 private:
37 CPPUNIT_TEST_SUITE( UniCharTestCase );
38 CPPUNIT_TEST( CharCompare );
39 CPPUNIT_TEST( CharCompareIntl );
40 CPPUNIT_TEST( StringCompare );
41 CPPUNIT_TEST( StringCompareIntl );
42 CPPUNIT_TEST_SUITE_END();
43
44 void CharCompare();
45 void CharCompareIntl();
46 void StringCompare();
47 void StringCompareIntl();
48
49 DECLARE_NO_COPY_CLASS(UniCharTestCase)
50 };
51
52 // register in the unnamed registry so that these tests are run by default
53 CPPUNIT_TEST_SUITE_REGISTRATION( UniCharTestCase );
54
55 // also include in it's own registry so that these tests can be run alone
56 CPPUNIT_TEST_SUITE_NAMED_REGISTRATION( UniCharTestCase, "UniCharTestCase" );
57
58 void UniCharTestCase::CharCompare()
59 {
60 wxUniChar a('a');
61 wxUniChar b('b');
62
63 CPPUNIT_ASSERT( a == a );
64 CPPUNIT_ASSERT( a == 'a' );
65 CPPUNIT_ASSERT( a == wxT('a') );
66 CPPUNIT_ASSERT( a == wxUniChar('a') );
67 CPPUNIT_ASSERT( a == wxUniChar(wxT('a')) );
68
69 CPPUNIT_ASSERT( a != b );
70 CPPUNIT_ASSERT( a != 'b' );
71 CPPUNIT_ASSERT( a != wxT('b') );
72 CPPUNIT_ASSERT( a != wxUniChar('b') );
73 CPPUNIT_ASSERT( a != wxUniChar(wxT('b')) );
74
75 CPPUNIT_ASSERT( a < b );
76 CPPUNIT_ASSERT( a < 'b' );
77 CPPUNIT_ASSERT( a < wxT('b') );
78 CPPUNIT_ASSERT( a < wxUniChar('b') );
79 CPPUNIT_ASSERT( a < wxUniChar(wxT('b')) );
80
81 CPPUNIT_ASSERT( a <= b );
82 CPPUNIT_ASSERT( a <= 'b' );
83 CPPUNIT_ASSERT( a <= wxT('b') );
84 CPPUNIT_ASSERT( a <= wxUniChar('b') );
85 CPPUNIT_ASSERT( a <= wxUniChar(wxT('b')) );
86
87 CPPUNIT_ASSERT( a <= a );
88 CPPUNIT_ASSERT( a <= 'a' );
89 CPPUNIT_ASSERT( a <= wxT('a') );
90 CPPUNIT_ASSERT( a <= wxUniChar('a') );
91 CPPUNIT_ASSERT( a <= wxUniChar(wxT('a')) );
92
93 CPPUNIT_ASSERT( b > a );
94 CPPUNIT_ASSERT( b > 'a' );
95 CPPUNIT_ASSERT( b > wxT('a') );
96 CPPUNIT_ASSERT( b > wxUniChar('a') );
97 CPPUNIT_ASSERT( b > wxUniChar(wxT('a')) );
98
99 CPPUNIT_ASSERT( b >= a );
100 CPPUNIT_ASSERT( b >= 'a' );
101 CPPUNIT_ASSERT( b >= wxT('a') );
102 CPPUNIT_ASSERT( b >= wxUniChar('a') );
103 CPPUNIT_ASSERT( b >= wxUniChar(wxT('a')) );
104
105 CPPUNIT_ASSERT( b >= b );
106 CPPUNIT_ASSERT( b >= 'b' );
107 CPPUNIT_ASSERT( b >= wxT('b') );
108 CPPUNIT_ASSERT( b >= wxUniChar('b') );
109 CPPUNIT_ASSERT( b >= wxUniChar(wxT('b')) );
110
111 CPPUNIT_ASSERT( b - a == 1 );
112 CPPUNIT_ASSERT( a - b == -1 );
113 }
114
115
116 #define CYRILLIC_SMALL_LETTER_YU ((wchar_t)0x044E)
117 #define ARABIC_LETTER_NOON ((wchar_t)0x0646)
118
119 void UniCharTestCase::CharCompareIntl()
120 {
121 wxUniChar a(CYRILLIC_SMALL_LETTER_YU);
122 wxUniChar b(ARABIC_LETTER_NOON);
123
124 CPPUNIT_ASSERT( a == a );
125 CPPUNIT_ASSERT( a == CYRILLIC_SMALL_LETTER_YU );
126 CPPUNIT_ASSERT( a == wxUniChar(CYRILLIC_SMALL_LETTER_YU) );
127
128 CPPUNIT_ASSERT( a != b );
129 CPPUNIT_ASSERT( a != ARABIC_LETTER_NOON );
130 CPPUNIT_ASSERT( a != wxUniChar(ARABIC_LETTER_NOON) );
131
132 CPPUNIT_ASSERT( a < b );
133 CPPUNIT_ASSERT( a < ARABIC_LETTER_NOON );
134 CPPUNIT_ASSERT( a < wxUniChar(ARABIC_LETTER_NOON) );
135
136 CPPUNIT_ASSERT( a <= b );
137 CPPUNIT_ASSERT( a <= ARABIC_LETTER_NOON );
138 CPPUNIT_ASSERT( a <= wxUniChar(ARABIC_LETTER_NOON) );
139
140 CPPUNIT_ASSERT( a <= a );
141 CPPUNIT_ASSERT( a <= CYRILLIC_SMALL_LETTER_YU );
142 CPPUNIT_ASSERT( a <= wxUniChar(CYRILLIC_SMALL_LETTER_YU) );
143
144 CPPUNIT_ASSERT( b > a );
145 CPPUNIT_ASSERT( b > CYRILLIC_SMALL_LETTER_YU );
146 CPPUNIT_ASSERT( b > wxUniChar(CYRILLIC_SMALL_LETTER_YU) );
147
148 CPPUNIT_ASSERT( b >= a );
149 CPPUNIT_ASSERT( b >= CYRILLIC_SMALL_LETTER_YU );
150 CPPUNIT_ASSERT( b >= wxUniChar(CYRILLIC_SMALL_LETTER_YU) );
151
152 CPPUNIT_ASSERT( b >= b );
153 CPPUNIT_ASSERT( b >= ARABIC_LETTER_NOON );
154 CPPUNIT_ASSERT( b >= wxUniChar(ARABIC_LETTER_NOON) );
155
156 CPPUNIT_ASSERT( b - a == 504 );
157 CPPUNIT_ASSERT( a - b == -504 );
158 }
159
160 void UniCharTestCase::StringCompare()
161 {
162 // test string comparison with chars
163 wxString sa = "a";
164 const wxString sb = "b";
165 char c1 = 'a';
166 wchar_t c2 = wxT('a');
167 wxUniChar c3 = 'a';
168
169 CPPUNIT_ASSERT( sa == 'a');
170 CPPUNIT_ASSERT( 'a' == sa);
171 CPPUNIT_ASSERT( sb != 'a');
172 CPPUNIT_ASSERT( 'a' != sb);
173
174 CPPUNIT_ASSERT( sa == c1);
175 CPPUNIT_ASSERT( c1 == sa);
176 CPPUNIT_ASSERT( sb != c1);
177 CPPUNIT_ASSERT( c1 != sb);
178
179 CPPUNIT_ASSERT( sa == c2);
180 CPPUNIT_ASSERT( c2 == sa);
181 CPPUNIT_ASSERT( sb != c2);
182 CPPUNIT_ASSERT( c2 != sb);
183
184 CPPUNIT_ASSERT( sa == c3);
185 CPPUNIT_ASSERT( c3 == sa);
186 CPPUNIT_ASSERT( sb != c3);
187 CPPUNIT_ASSERT( c3 != sb);
188
189 // test wxUniCharRef:
190 CPPUNIT_ASSERT( sa == sa[0]);
191 CPPUNIT_ASSERT( sa[0] == sa);
192 CPPUNIT_ASSERT( sb != sa[0]);
193 CPPUNIT_ASSERT( sa[0] != sb);
194
195 // test const version of operator[] (returns wxUniChar, not wxUniCharRef):
196 CPPUNIT_ASSERT( sb == sb[0]);
197 CPPUNIT_ASSERT( sb[0] == sb);
198 CPPUNIT_ASSERT( sa != sb[0]);
199 CPPUNIT_ASSERT( sb[0] != sa);
200 }
201
202 void UniCharTestCase::StringCompareIntl()
203 {
204 // test string comparison with chars
205 wxString sa = CYRILLIC_SMALL_LETTER_YU;
206 const wxString sb = ARABIC_LETTER_NOON;
207 wchar_t c2 = CYRILLIC_SMALL_LETTER_YU;
208 wxUniChar c3 = CYRILLIC_SMALL_LETTER_YU;
209
210 CPPUNIT_ASSERT( sa == CYRILLIC_SMALL_LETTER_YU);
211 CPPUNIT_ASSERT( CYRILLIC_SMALL_LETTER_YU == sa);
212 CPPUNIT_ASSERT( sb != CYRILLIC_SMALL_LETTER_YU);
213 CPPUNIT_ASSERT( CYRILLIC_SMALL_LETTER_YU != sb);
214
215 CPPUNIT_ASSERT( sa == c2);
216 CPPUNIT_ASSERT( c2 == sa);
217 CPPUNIT_ASSERT( sb != c2);
218 CPPUNIT_ASSERT( c2 != sb);
219
220 CPPUNIT_ASSERT( sa == c3);
221 CPPUNIT_ASSERT( c3 == sa);
222 CPPUNIT_ASSERT( sb != c3);
223 CPPUNIT_ASSERT( c3 != sb);
224
225 // test wxUniCharRef:
226 CPPUNIT_ASSERT( sa == sa[0]);
227 CPPUNIT_ASSERT( sa[0] == sa);
228 CPPUNIT_ASSERT( sb != sa[0]);
229 CPPUNIT_ASSERT( sa[0] != sb);
230
231 // test const version of operator[] (returns wxUniChar, not wxUniCharRef):
232 CPPUNIT_ASSERT( sb == sb[0]);
233 CPPUNIT_ASSERT( sb[0] == sb);
234 CPPUNIT_ASSERT( sa != sb[0]);
235 CPPUNIT_ASSERT( sb[0] != sa);
236 }