1 //===------------------------- incomplete_type.cpp --------------------------===//
2 //
3 // The LLVM Compiler Infrastructure
4 //
5 // This file is dual licensed under the MIT and the University of Illinois Open
6 // Source Licenses. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 // http://mentorembedded.github.io/cxx-abi/abi.html#rtti-layout
10
11 // Two abi::__pbase_type_info objects can always be compared for equality
12 // (i.e. of the types represented) or ordering by comparison of their name
13 // NTBS addresses. In addition, unless either or both have either of the
14 // incomplete flags set, equality can be tested by comparing the type_info
15 // addresses.
16
17 // UNSUPPORTED: libcxxabi-no-exceptions
18
19 // NOTE: Pass -lc++abi explicitly and before -lc++ so that -lc++ doesn't drag
20 // in the system libc++abi installation on OS X. (DYLD_LIBRARY_PATH is ignored
21 // for shell tests because of Apple security features).
22
23 // RUN: %cxx %flags %compile_flags -c %s -o %t.one.o
24 // RUN: %cxx %flags %compile_flags -c %s -o %t.two.o -DTU_ONE
25 // RUN: %cxx %flags %t.one.o %t.two.o -lc++abi %link_flags -o %t.exe
26 // RUN: %t.exe
27
28 #include <stdio.h>
29 #include <cstring>
30 #include <cassert>
31 #include <typeinfo>
32
33 // Check that the addresses of the typeinfo differ but still compare equal
34 // via their NTBS.
35 inline void
AssertIncompleteTypeInfoEquals(std::type_info const & LHS,std::type_info const & RHS)36 AssertIncompleteTypeInfoEquals(std::type_info const& LHS, std::type_info const& RHS)
37 {
38 assert(&LHS != &RHS);
39 assert(strcmp(LHS.name(), RHS.name()) == 0);
40 }
41
42 struct NeverDefined;
43 void ThrowNeverDefinedMP();
44 std::type_info const& ReturnTypeInfoNeverDefinedMP();
45
46 struct IncompleteAtThrow;
47 void ThrowIncompleteMP();
48 void ThrowIncompletePP();
49 void ThrowIncompletePMP();
50 std::type_info const& ReturnTypeInfoIncompleteMP();
51 std::type_info const& ReturnTypeInfoIncompletePP();
52
53 struct CompleteAtThrow;
54 void ThrowCompleteMP();
55 void ThrowCompletePP();
56 void ThrowCompletePMP();
57 std::type_info const& ReturnTypeInfoCompleteMP();
58 std::type_info const& ReturnTypeInfoCompletePP();
59
60 void ThrowNullptr();
61
62 #ifndef TU_ONE
63
ThrowNeverDefinedMP()64 void ThrowNeverDefinedMP() { throw (int NeverDefined::*)nullptr; }
ReturnTypeInfoNeverDefinedMP()65 std::type_info const& ReturnTypeInfoNeverDefinedMP() { return typeid(int NeverDefined::*); }
66
ThrowIncompleteMP()67 void ThrowIncompleteMP() { throw (int IncompleteAtThrow::*)nullptr; }
ThrowIncompletePP()68 void ThrowIncompletePP() { throw (IncompleteAtThrow**)nullptr; }
ThrowIncompletePMP()69 void ThrowIncompletePMP() { throw (int IncompleteAtThrow::**)nullptr; }
ReturnTypeInfoIncompleteMP()70 std::type_info const& ReturnTypeInfoIncompleteMP() { return typeid(int IncompleteAtThrow::*); }
ReturnTypeInfoIncompletePP()71 std::type_info const& ReturnTypeInfoIncompletePP() { return typeid(IncompleteAtThrow**); }
72
73 struct CompleteAtThrow {};
ThrowCompleteMP()74 void ThrowCompleteMP() { throw (int CompleteAtThrow::*)nullptr; }
ThrowCompletePP()75 void ThrowCompletePP() { throw (CompleteAtThrow**)nullptr; }
ThrowCompletePMP()76 void ThrowCompletePMP() { throw (int CompleteAtThrow::**)nullptr; }
ReturnTypeInfoCompleteMP()77 std::type_info const& ReturnTypeInfoCompleteMP() { return typeid(int CompleteAtThrow::*); }
ReturnTypeInfoCompletePP()78 std::type_info const& ReturnTypeInfoCompletePP() { return typeid(CompleteAtThrow**); }
79
ThrowNullptr()80 void ThrowNullptr() { throw nullptr; }
81
82 #else
83
84 struct IncompleteAtThrow {};
85
main()86 int main() {
87 AssertIncompleteTypeInfoEquals(ReturnTypeInfoNeverDefinedMP(), typeid(int NeverDefined::*));
88 try {
89 ThrowNeverDefinedMP();
90 assert(false);
91 } catch (int IncompleteAtThrow::*) {
92 assert(false);
93 } catch (int CompleteAtThrow::*) {
94 assert(false);
95 } catch (int NeverDefined::*p) {
96 assert(!p);
97 }
98 catch(...) { assert(!"FAIL: Didn't catch NeverDefined::*" ); }
99
100 AssertIncompleteTypeInfoEquals(ReturnTypeInfoIncompleteMP(), typeid(int IncompleteAtThrow::*));
101 try {
102 ThrowIncompleteMP();
103 assert(false);
104 } catch (CompleteAtThrow**) {
105 assert(false);
106 } catch (int CompleteAtThrow::*) {
107 assert(false);
108 } catch (IncompleteAtThrow**) {
109 assert(false);
110 } catch (int IncompleteAtThrow::*p) {
111 assert(!p);
112 }
113 catch(...) { assert(!"FAIL: Didn't catch IncompleteAtThrow::*" ); }
114
115 AssertIncompleteTypeInfoEquals(ReturnTypeInfoIncompletePP(), typeid(IncompleteAtThrow**));
116 try {
117 ThrowIncompletePP();
118 assert(false);
119 } catch (int IncompleteAtThrow::*) {
120 assert(false);
121 } catch (IncompleteAtThrow** p) {
122 assert(!p);
123 }
124 catch(...) { assert(!"FAIL: Didn't catch IncompleteAtThrow**" ); }
125
126 try {
127 ThrowIncompletePMP();
128 assert(false);
129 } catch (int IncompleteAtThrow::*) {
130 assert(false);
131 } catch (IncompleteAtThrow**) {
132 assert(false);
133 } catch (int IncompleteAtThrow::**p) {
134 assert(!p);
135 }
136 catch(...) { assert(!"FAIL: Didn't catch IncompleteAtThrow::**" ); }
137
138 AssertIncompleteTypeInfoEquals(ReturnTypeInfoCompleteMP(), typeid(int CompleteAtThrow::*));
139 try {
140 ThrowCompleteMP();
141 assert(false);
142 } catch (IncompleteAtThrow**) {
143 assert(false);
144 } catch (int IncompleteAtThrow::*) {
145 assert(false);
146 } catch (CompleteAtThrow**) {
147 assert(false);
148 } catch (int CompleteAtThrow::*p) {
149 assert(!p);
150 }
151 catch(...) { assert(!"FAIL: Didn't catch CompleteAtThrow::" ); }
152
153 AssertIncompleteTypeInfoEquals(ReturnTypeInfoCompletePP(), typeid(CompleteAtThrow**));
154 try {
155 ThrowCompletePP();
156 assert(false);
157 } catch (IncompleteAtThrow**) {
158 assert(false);
159 } catch (int IncompleteAtThrow::*) {
160 assert(false);
161 } catch (int CompleteAtThrow::*) {
162 assert(false);
163 } catch (CompleteAtThrow**p) {
164 assert(!p);
165 }
166 catch(...) { assert(!"FAIL: Didn't catch CompleteAtThrow**" ); }
167
168 try {
169 ThrowCompletePMP();
170 assert(false);
171 } catch (IncompleteAtThrow**) {
172 assert(false);
173 } catch (int IncompleteAtThrow::*) {
174 assert(false);
175 } catch (int CompleteAtThrow::*) {
176 assert(false);
177 } catch (CompleteAtThrow**) {
178 assert(false);
179 } catch (int CompleteAtThrow::**p) {
180 assert(!p);
181 }
182 catch(...) { assert(!"FAIL: Didn't catch CompleteAtThrow::**" ); }
183
184 #if __cplusplus >= 201103L
185 // Catch nullptr as complete type
186 try {
187 ThrowNullptr();
188 } catch (int IncompleteAtThrow::*p) {
189 assert(!p);
190 }
191 catch(...) { assert(!"FAIL: Didn't catch nullptr as IncompleteAtThrow::*" ); }
192
193 // Catch nullptr as an incomplete type
194 try {
195 ThrowNullptr();
196 } catch (int CompleteAtThrow::*p) {
197 assert(!p);
198 }
199 catch(...) { assert(!"FAIL: Didn't catch nullptr as CompleteAtThrow::*" ); }
200
201 // Catch nullptr as a type that is never complete.
202 try {
203 ThrowNullptr();
204 } catch (int NeverDefined::*p) {
205 assert(!p);
206 }
207 catch(...) { assert(!"FAIL: Didn't catch nullptr as NeverDefined::*" ); }
208
209 #endif
210 }
211 #endif
212